* ***************************************************************************** * * FLUKA CMS Detector Description 2011 * ------------------------------ * * Multi purpose run. * * ***************************************************************************** TITLE CMS Test based on the geometry from Mika * FLAIR: Use names GLOBAL 0.0 1. 1.0 * ********************************************************************* * ------------------- DEFAULT SETTINGS -------------------------------* * ********************************************************************* DEFAULTS PRECISIO #if 0 * Switch on the new generator/heavies transported /option 13 selected EVENTYPE 2. DPMJET #endif FLUKAFIX 0.01 BLCKHOLE @LASTMAT BEAMPOS 0.0 0.0 1E-09 0.0 0.0 * 4TeV BEAM -4000.0 PROTON * Max CMS momentum for DPMJET PHYSICS 8000.0 LIMITS * Makes source.f useless. * px = 0.42 for x angle of 120 urad (2011 config) SPECSOUR 0.42 0.0 4000. 0.42 0.0 -4000.PPSOURCE SPECSOUR 0.0 0.0 5.0 0.0 PROTON 0.0& SPECSOUR && MATERIAL 2.0 4.0026 0.0001785 4.0 4.0HELIUM MATERIAL 4.0 9.0122 1.848 5.0 BERYLLIU MATERIAL 6.0 12.011 2.0 6.0 CARBON MATERIAL 7.0 14.0067 0.0012506 7.0 NITROGEN MATERIAL 8.0 15.9994 0.001429 8.0 OXYGEN MATERIAL 13.0 26.9815 2.6989 10.0 ALUMINUM MATERIAL 26.0 55.847 7.874 11.0 IRON MATERIAL 29.0 63.546 8.96 12.0 COPPER MATERIAL 14.0 28.086 2.33 14.0 SILICON MATERIAL 79.0 196.9665 19.32 15.0 GOLD MATERIAL 82.0 207.2 11.35 17.0 LEAD MATERIAL 11.0 22.99 0.971 19.0 SODIUM MATERIAL 18.0 39.948 0.0017837 20.0 ARGON MATERIAL 20.0 40.08 1.55 21.0 CALCIUM MATERIAL 74. 183.84 19.3 23. TUNGSTEN MAT-PROP 727.0 TUNGSTEN MAT-PROP 90.0 TUNGSTEN DPA-ENER STERNHEI 5.4059 0.2167 3.496 .15509 2.8447 .14TUNGSTEN MAT-PROP 272.0 MANGANES MAT-PROP 40.0 MANGANES DPA-ENER STERNHEI 4.2702 .0447 3.1074 0.14973 2.9796 .14MANGANES MAT-PROP 366.0 STRONTIU STERNHEI 5.9867 .4585 3.6778 .07165 3.4435 .14STRONTIU GEOBEGIN COMBNAME 0 0 * ******* BEGIN VOLUME DEFINITIONS ****************************************** * External black hole RPP B1 -999999.0 999999.0 -999999.0 999999.0 -999999.0 999999.0 * geometry start XYP B2 0.0 * *** start beam pipe definitions (high luminosity version) * Inner and outer radius of beampipe (Be and Al) (in fact use 4.12 for both) ZCC B3 0.0 0.0 2.9 ZCC B4 0.0 0.0 2.98 * radius of BE-SST joint ZCC B5 0.0 0.0 3.1 TRC B6 0.0 0.0 353.98 0.0 0.0 -163.0 5.27 2.9 TRC B7 0.0 0.0 353.98 0.0 0.0 -163.0 5.4 3.0 * flange radius ZCC B8 0.0 0.0 6.5 ZCC B9 0.0 0.0 6.65 TRC B10 0.0 0.0 1052.9001 0.0 0.0 -858.1002 15.66 2.9 TRC B11 0.0 0.0 1052.9001 0.0 0.0 -858.1002 15.94 3.0 TRC B12 0.0 0.0 1052.8999 0.0 0.0 27.91 15.66 8.488 TRC B13 0.0 0.0 1052.8999 0.0 0.0 27.91 15.94 8.74 * start Be-SST joint XYP B14 190.0 * start cone XYP B15 194.8 * start flange XYP B16 310.50 * end flange XYP B17 313.5 XYP B18 1052.9 XYP B19 1080.8 * *** beam pipe envelope ZCC B20 0.0 0.0 20.0 * *** pixels * *** pixels * pixel barrel detector * inner shielding ZCC B21a 0.0 0.0 3.7 ZCC B21b 0.0 0.0 3.73 * barrel pixel layer 1: mean radii 4.4 ZCC B21 0.0 0.0 4.2 ZCC B22 0.0 0.0 4.6 * barrel pixel layer 2: mean radii 7.3 ZCC B23 0.0 0.0 7.1 ZCC B24 0.0 0.0 7.5 * barrel pixel layer 3: mean radii 10.2 ZCC B25 0.0 0.0 10.0 ZCC B26 0.0 0.0 10.4 * outer shielding ZCC B26a 0.0 0.0 18.6 ZCC B26b 0.0 0.0 18.63 * Supply tube: Rin, sector C ZCC B26c 0.0 0.0 18.00 * Pixel Barrel Supply tube & Supply Box: Rin ZCC B26d 0.0 0.0 21.65 * Pixel Barrel Supply tube & Supply Box: Rout ZCC B26e 0.0 0.0 21.902 * length of barrel pixel XYP B27 26.5 * place for cabe XYP B27a 27.72 * endflage of barrel XYP B27b 28.5 * Forward pixel detector * FPIX: Rout edge ZCC B28a 0.0 0.0 16.1 * FPIX: Rout detector zone ZCC B28 0.0 0.0 15.0 * FPIX: Rin detector zone ZCC B29 0.0 0.0 6.10 * FPIX: Rin edge ZCC B29a 0.0 0.0 5.5 * FPIX service cylinder: Rin ZCC B29b 0.0 0.0 16.80 * FPIX service cylinder: Rout ZCC B29c 0.0 0.0 17.60 * space between endflange and flange of supply tube XYP B30a 30.5 * start Fix and flange of supply tube XYP B30b 32.0 * start FPix_1: Zm = 34.5 XYP B30 32.5 * end FPix_1: Zm = 34.5 XYP B31 36.5 * start FPix_2: Zm = 46.5 XYP B32 44.5 * end FPix_2: Zm = 46.5 XYP B33 48.5 * end supply tube C (30.5 + 49.3) XYP B34 79.8 * Service cylinder (part 1: FPIX, nu < 2.5) XYP B34a 102.0 * Supply tube& Supply Box (nu < 2.33) XYP B34b 110.0 * one part of supply tube B XYP B35 120.0 * end of supply tube B (30.5 + 49.3 +120) XYP B35a 199.8 * end of supply tube A (30.5 + 49.3 +120+48.5) XYP B35b 248.3 * **** end of BPIX and FPIX * *** TIB ZCC B36 0.0 0.0 23.4 ZCC B37 0.0 0.0 23.43 ZCC B38 0.0 0.0 34.5 ZCC B39 0.0 0.0 34.53 ZCC B40 0.0 0.0 42.3 ZCC B41 0.0 0.0 42.33 ZCC B42 0.0 0.0 50.0 ZCC B43 0.0 0.0 50.03 * outer tube ZCC B44 0.0 0.0 122.0 ZCC B45 0.0 0.0 124.0 * *** preshower and moderators * this is the eta=2.6 cone to limit the preshower TRC B46 0.0 0.0 1001.0 0.0 0.0 -1000.0 149.52 0.14952 ZCC B46a 0.0 0.0 37.8 ZCC B46b 0.0 0.0 36. ZCC B46c 0.0 0.0 32.4 ZCC B46d 0.0 0.0 31.1 * support carbon fibre shell in tracker tubes ZCC B47 0.0 0.0 48.0 ZCC B48 0.0 0.0 124.65 * lower of first MSGC substrate ZCC B49 0.0 0.0 49.97 * start of barrel preshower * start air gap (from 124.65 to 125.0 Al) ZCC B50 0.0 0.0 125.0 * start of moderator ZCC B51 0.0 0.0 127.5 * eta=1.653 to limit forward PS TRC B52 0.0 0.0 1001.0 0.0 0.0 -1000.0 397.52 0.39752 * sm cable trays TRC B52a 0.0 0.0 1001.0 0.0 0.0 -1000.0 414.02 16.89752 * Dummies XYP B53 138.16 XYP B54 139.47 * start of FW preshower (lower limits given) * start PE XYP B55 297.3 * limit of ecal material XYP B55a 304.5 * start air XYP B56 300.9 * start cooloing screens XYP B57 302.3 * start AL XYP B57a 302.9 * start Pb XYP B58 303.1 * start Al XYP B59 304.05 * start Si XYP B60 305.0 * start Air XYP B61 305.03 XYP B61a 305.85 XYP B61b 306.0 XYP B61c 306.16 * start cooling screen XYP B62 307.4 * start AL XYP B62a 308.0 * start Pb XYP B63 308.2 * start Al XYP B64 308.6 * start Si XYP B65 309.5 * start Air XYP B66 309.53 * start Al XYP B66a 310.35 * start G10 XYP B67 310.5 * start Air XYP B68 310.66 * start of moderator XYP B69 313.1 * *** ECAL and moderators * preshower z-limit (corresponds to eta=1.1) XYP B70 190.0 * EB-EF joining cone (starts at z=35cm and hits point (R,Z)=(142,300)) * TRC 71 0.0 0.0 1040.0 0.0 0.0 -1000.0 * 538.5 2.68 * new, eta=1.479 TRC B71 0.0 0.0 1000.1 0.0 0.0 -990.0 480.7 4.807 * cable tray TRC B71a 0.0 0.0 1000.1 0.0 0.0 -990.0 490.7 14.807 * start of EB-Xtals ZCC B72 0.0 0.0 129.0 * to limit of EB-Xtals TRC B73 0.0 0.0 99.999 0.0 0.0 900.01 149.0 113.0 * endcap Xtal limits XYP B74 320.0 * sm eb/ee cable trays XYP B74a 306.5 XYP B75 342.0 * moderators behind EF XYP B76 352.0 XYP B77 360.0 * the eta=3.0 cone TRC B78 0.0 0.0 1200.0 0.0 0.0 -1000.0 119.78 19.96 * *** HCAL * the 53 degree crack (14cm wide) TRC B79 0.0 0.0 802.47 0.0 0.0 -500.0 763.5 100.0 TRC B80 0.0 0.0 820.0 0.0 0.0 -500.0 763.5 100.0 * start barrel HCAL layers ZCC B81 0.0 0.0 192.2 ZCC B82 0.0 0.0 197.12 ZCC B83 0.0 0.0 198.76 ZCC B84 0.0 0.0 203.68 ZCC B85 0.0 0.0 204.5 ZCC B86 0.0 0.0 209.42 ZCC B87 0.0 0.0 210.24 ZCC B88 0.0 0.0 215.16 ZCC B89 0.0 0.0 215.98 ZCC B90 0.0 0.0 220.9 ZCC B91 0.0 0.0 221.72 ZCC B92 0.0 0.0 226.64 ZCC B93 0.0 0.0 227.46 ZCC B94 0.0 0.0 232.38 ZCC B95 0.0 0.0 233.2 ZCC B96 0.0 0.0 238.12 ZCC B97 0.0 0.0 238.94 ZCC B98 0.0 0.0 243.86 ZCC B99 0.0 0.0 244.68 ZCC B100 0.0 0.0 249.6 ZCC B101 0.0 0.0 250.42 ZCC B102 0.0 0.0 255.34 ZCC B103 0.0 0.0 256.16 ZCC B104 0.0 0.0 261.08 ZCC B105 0.0 0.0 261.9 ZCC B106 0.0 0.0 266.82 ZCC B107 0.0 0.0 267.64 ZCC B108 0.0 0.0 272.56 ZCC B109 0.0 0.0 273.38 ZCC B110 0.0 0.0 278.3 ZCC B111 0.0 0.0 279.12 ZCC B112 0.0 0.0 284.04 ZCC B113 0.0 0.0 284.86 ZCC B114 0.0 0.0 291.42 ZCC B115 0.0 0.0 292.24 * start forward HCAL layers XYP B116 390.37 XYP B117 392.13 XYP B118 400.05 XYP B119 401.81 XYP B120 409.73 XYP B121 410.61 XYP B122 418.53 XYP B123 419.41 XYP B124 427.33 XYP B125 428.21 XYP B126 436.13 XYP B127 437.01 XYP B128 444.93 XYP B129 445.81 XYP B130 453.73 XYP B131 454.61 XYP B132 462.53 XYP B133 463.41 XYP B134 471.33 XYP B135 472.21 XYP B136 480.13 XYP B137 481.01 XYP B138 488.93 XYP B139 489.81 XYP B140 497.73 XYP B141 498.61 XYP B142 506.53 XYP B143 507.41 XYP B144 515.33 * **** start coil * coil end XYP B145 624.0 * vac tank-walls XYP B146 644.0 XYP B147 650.0 * MB-chambers end XYP B148 661.0 * Vac-tank and coil radii * vac-tank lower ZCC B149 0.0 0.0 297.0 ZCC B150 0.0 0.0 303.0 * coil itself ZCC B151 0.0 0.0 323.0 ZCC B152 0.0 0.0 353.0 * vac-tank upper (two lower limits, for central and end-sections separate) ZCC B153 0.0 0.0 374.0 ZCC B154 0.0 0.0 377.0 ZCC B155 0.0 0.0 380.0 * limit for the thicker part XYP B156 220.0 * **** end tail-catcher ZCC B157 0.0 0.0 402.0 XYP B158 126.8 * **** start yoke iron * these are the inter-ring gaps XYP B159 141.0 XYP B160 394.3 XYP B161 406.0 * first yoke layer (RB1) ZCC B162 0.0 0.0 459.0 ZCC B163 0.0 0.0 488.5 * second layer of the yoke (RB2) ZCC B164 0.0 0.0 534.5 ZCC B165 0.0 0.0 597.5 * third layer of the yoke ZCC B166 0.0 0.0 637.0 ZCC B167 0.0 0.0 700.0 * nose-part 1 XYP B168 632.0 XYP B169 666.0 * nose-part 2 XYP B170 670.0 XYP B171 724.0 * r-limit for nose ZCC B172 0.0 0.0 270.0 * RF1 XYP B173 786.0 * RF2 XYP B174 852.0 XYP B175 912.0 * RF3 XYP B176 977.0 XYP B177 1002.0 * **** do the VFCAL in rz-segments * the eta=5.3 cone * TRC 178 0.0 0.0 1800.0 0.0 0.0 -1700.0 * 17.7913 0.9988 ZCC B178 0.0 0.0 25.0 ZCC B179 0.0 0.0 30.0 ZCC B180 0.0 0.0 60.0 ZCC B181 0.0 0.0 100.0 ZCC B182 0.0 0.0 132.5 * begin moderator XYP B183 1091.0 * begin air gap XYP B184 1111.0 * begin bulk HV XYP B185 1115.0 XYP B186 1185.0 XYP B187 1210.0 * begin TC1 XYP B188 1255.0 * begin air behind XYP B189 1280.0 * begin end plug XYP B190 1300.00 * **** define barrel chambers (use 3mm Alu,1cm gap) * **** after 8 layers comes a 9.7cm Al-honeycomb plane * MB1 ZCC B191 0.0 0.0 415.0 ZCC B192 0.0 0.0 415.3 ZCC B193 0.0 0.0 416.3 ZCC B194 0.0 0.0 416.6 ZCC B195 0.0 0.0 417.6 ZCC B196 0.0 0.0 417.9 ZCC B197 0.0 0.0 418.9 ZCC B198 0.0 0.0 419.2 ZCC B199 0.0 0.0 420.2 ZCC B200 0.0 0.0 420.5 ZCC B201 0.0 0.0 421.5 ZCC B202 0.0 0.0 421.8 ZCC B203 0.0 0.0 422.8 ZCC B204 0.0 0.0 423.1 ZCC B205 0.0 0.0 424.1 ZCC B206 0.0 0.0 424.4 ZCC B207 0.0 0.0 425.4 ZCC B208 0.0 0.0 425.7 ZCC B209 0.0 0.0 435.7 ZCC B210 0.0 0.0 436.7 ZCC B211 0.0 0.0 437.0 ZCC B212 0.0 0.0 438.0 ZCC B213 0.0 0.0 438.3 ZCC B214 0.0 0.0 439.3 ZCC B215 0.0 0.0 439.6 ZCC B216 0.0 0.0 440.6 ZCC B217 0.0 0.0 440.9 * MB2 ZCC B218 0.0 0.0 505.0 ZCC B219 0.0 0.0 505.3 ZCC B220 0.0 0.0 506.3 ZCC B221 0.0 0.0 506.6 ZCC B222 0.0 0.0 507.6 ZCC B223 0.0 0.0 507.9 ZCC B224 0.0 0.0 508.9 ZCC B225 0.0 0.0 509.2 ZCC B226 0.0 0.0 510.2 ZCC B227 0.0 0.0 510.5 ZCC B228 0.0 0.0 511.5 ZCC B229 0.0 0.0 511.8 ZCC B230 0.0 0.0 512.8 ZCC B231 0.0 0.0 513.1 ZCC B232 0.0 0.0 514.1 ZCC B233 0.0 0.0 514.4 ZCC B234 0.0 0.0 515.4 ZCC B235 0.0 0.0 515.7 ZCC B236 0.0 0.0 525.7 ZCC B237 0.0 0.0 526.7 ZCC B238 0.0 0.0 527.0 ZCC B239 0.0 0.0 528.0 ZCC B240 0.0 0.0 528.3 ZCC B241 0.0 0.0 529.3 ZCC B242 0.0 0.0 529.6 ZCC B243 0.0 0.0 530.6 ZCC B244 0.0 0.0 530.9 * MB3 ZCC B245 0.0 0.0 605.0 ZCC B246 0.0 0.0 605.3 ZCC B247 0.0 0.0 606.3 ZCC B248 0.0 0.0 606.6 ZCC B249 0.0 0.0 607.6 ZCC B250 0.0 0.0 607.9 ZCC B251 0.0 0.0 608.9 ZCC B252 0.0 0.0 609.2 ZCC B253 0.0 0.0 610.2 ZCC B254 0.0 0.0 610.5 ZCC B255 0.0 0.0 611.5 ZCC B256 0.0 0.0 611.8 ZCC B257 0.0 0.0 612.8 ZCC B258 0.0 0.0 613.1 ZCC B259 0.0 0.0 614.1 ZCC B260 0.0 0.0 614.4 ZCC B261 0.0 0.0 615.4 ZCC B262 0.0 0.0 615.7 ZCC B263 0.0 0.0 625.7 ZCC B264 0.0 0.0 626.7 ZCC B265 0.0 0.0 627.0 ZCC B266 0.0 0.0 628.0 ZCC B267 0.0 0.0 628.3 ZCC B268 0.0 0.0 629.3 ZCC B269 0.0 0.0 629.6 ZCC B270 0.0 0.0 630.6 ZCC B271 0.0 0.0 630.9 * MB4 ZCC B272 0.0 0.0 705.0 ZCC B273 0.0 0.0 705.3 ZCC B274 0.0 0.0 706.3 ZCC B275 0.0 0.0 706.6 ZCC B276 0.0 0.0 707.6 ZCC B277 0.0 0.0 707.9 ZCC B278 0.0 0.0 708.9 ZCC B279 0.0 0.0 709.2 ZCC B280 0.0 0.0 710.2 ZCC B281 0.0 0.0 710.5 ZCC B282 0.0 0.0 711.5 ZCC B283 0.0 0.0 711.8 ZCC B284 0.0 0.0 712.8 ZCC B285 0.0 0.0 713.1 ZCC B286 0.0 0.0 714.1 ZCC B287 0.0 0.0 714.4 ZCC B288 0.0 0.0 715.4 ZCC B289 0.0 0.0 715.7 ZCC B290 0.0 0.0 725.7 ZCC B291 0.0 0.0 726.7 ZCC B292 0.0 0.0 727.0 ZCC B293 0.0 0.0 728.0 ZCC B294 0.0 0.0 728.3 ZCC B295 0.0 0.0 729.3 ZCC B296 0.0 0.0 729.6 ZCC B297 0.0 0.0 730.6 ZCC B298 0.0 0.0 730.9 * the forward chambers now * these have 4mm bakelite, 2mm gasm 8mmbakelite, 2mm gas, 8mm bakelite for RPC * 1cm air gap * 6 times 6mm honeycomb, 5mm gas for CSCs * MF1 * RPC XYP B299 569.0 XYP B300 569.4 XYP B301 569.6 XYP B302 570.4 XYP B303 570.6 XYP B304 571.0 * Air gap and then CSC * L1 XYP B305 575.0 XYP B306 575.16 XYP B307 576.46 XYP B308 576.62 XYP B309 577.62 * L2 XYP B310 577.78 XYP B311 579.08 XYP B312 579.24 XYP B313 580.24 * L3 XYP B314 580.4 XYP B315 581.7 XYP B316 581.86 XYP B317 582.86 * L4 XYP B318 583.02 * Outer radius of steel around HF PMT region ZCC B319 0.0 0.0 170.0 * joint limits ZCC B320 0.0 0.0 67.5 ZCC B321 0.0 0.0 79.0 * extra steel upper ZCC B322 0.0 0.0 85.0 * PE-upper ZCC B323 0.0 0.0 93.8 * chamber lower (only 2cm clearance for MF1) ZCC B324 0.0 0.0 97.5 * MF1A-B * RPC XYP B325 686.0 XYP B326 686.4 XYP B327 686.6 XYP B328 687.4 XYP B329 687.6 XYP B330 688.0 * gas gap and CSC * L1 XYP B331 695.0 XYP B332 695.16 XYP B333 696.46 XYP B334 696.62 XYP B335 697.62 * L2 XYP B336 697.78 XYP B337 699.08 XYP B338 699.24 XYP B339 700.24 * L3 XYP B340 700.4 XYP B341 701.7 XYP B342 701.86 XYP B343 702.86 * L4 XYP B344 703.02 * upper of moderator behind EE ZCC B345 0.0 0.0 50.0 * MF2 * RPC XYP B346 788.0 XYP B347 788.4 XYP B348 788.6 XYP B349 789.4 XYP B350 789.6 XYP B351 790.0 * gas gap and CSC * L1 XYP B352 828.0 XYP B353 828.16 XYP B354 829.46 XYP B355 829.62 XYP B356 830.62 * L2 XYP B357 830.78 XYP B358 832.08 XYP B359 832.24 XYP B360 833.24 * L3 XYP B361 833.4 XYP B362 834.7 XYP B363 834.86 XYP B364 835.86 * L4 XYP B365 836.02 * joint limits ***** ZCC B366 0.0 0.0 93.5 ZCC B367 0.0 0.0 102.5 * extra iron upper ZCC B368 0.0 0.0 113.5 * PE-upper ZCC B369 0.0 0.0 127.4 * chamber lower (10 cm clearance for MF2) ZCC B370 0.0 0.0 138.5 * MF3 * RPC XYP B371 973.0 XYP B372 973.4 XYP B373 973.6 XYP B374 974.4 XYP B375 974.6 XYP B376 975.0 * gas gap and CSC * L1 XYP B377 920.0 XYP B378 920.16 XYP B379 921.46 XYP B380 921.62 XYP B381 922.62 * L2 XYP B382 922.78 XYP B383 924.08 XYP B384 924.24 XYP B385 925.24 * L3 XYP B386 925.4 XYP B387 926.7 XYP B388 926.86 XYP B389 927.86 * L4 XYP B390 928.02 * joint limits **** ZCC B391 0.0 0.0 104.0 ZCC B392 0.0 0.0 125.0 * extra iron upper ZCC B393 0.0 0.0 136.0 * PE-upper ZCC B394 0.0 0.0 149.9 * chamber lower (10 cm clearance for MF3) ZCC B395 0.0 0.0 160.5 * MF4 * RPC XYP B396 1061.0 XYP B397 1061.4 XYP B398 1061.6 XYP B399 1062.4 XYP B400 1062.6 XYP B401 1063.0 * gas gap and CSC * L1 XYP B402 1010.0 XYP B403 1010.16 XYP B404 1011.46 XYP B405 1011.62 XYP B406 1012.62 * L2 XYP B407 1012.78 XYP B408 1014.08 XYP B409 1014.24 XYP B410 1015.24 * L3 XYP B411 1015.4 XYP B412 1016.7 XYP B413 1016.86 XYP B414 1017.86 * L4 XYP B415 1018.02 * joint limits **** ZCC B416 0.0 0.0 113.0 ZCC B417 0.0 0.0 118.5 * extra iron upper ******* ZCC B418 0.0 0.0 153.0 * PE-upper ****** ZCC B419 0.0 0.0 166.9 * chamber lower (10 cm clearance for MF4) ZCC B420 0.0 0.0 177.5 * ******** Start the external stuff now... * hall walls ZCC B421 0.0 0.0 1200.0 ZCC B422 0.0 0.0 1220.0 ZCC B423 0.0 0.0 1300.0 XYP B424 2656.0 XYP B425 2676.0 XYP B426 2750.0 * sym. to B426 -> inserted to be used for lattice! XYP N426 -2750.0 * MF4-wall XYP B427 1063.0 XYP B428 1073.0 XYP B429 1083.0 * shielding layers above HF (5cm clearance) * first two are iron, next two concrete, next PE ZCC B430 0.0 0.0 135.0 ZCC B431 0.0 0.0 155.0 ZCC B432 0.0 0.0 170.0 ZCC B433 0.0 0.0 190.0 ZCC B434 0.0 0.0 210.0 ZCC B435 0.0 0.0 215.0 * shielding layers behind HF (all concrete) * begin shielding XYP B436 1335.0 XYP B437 1355.0 XYP B438 1360.0 XYP B439 1390.0 XYP B440 1410.0 XYP B441 1433.0 * thin part of shielding ZCC B442 0.0 0.0 25.0 ZCC B443 0.0 0.0 33.0 ZCC B444 0.0 0.0 40.0 ZCC B445 0.0 0.0 55.0 ZCC B446 0.0 0.0 70.0 ZCC B447 0.0 0.0 95.0 * start of joining cone * R-outer=100 * XYP 448 1740.0 * R-outer=125 * XYP 448 1773.3 * R-outer=115 * XYP 448 1760.0 * R-outer=120 XYP B448 1766.5 * start of thick part XYP B449 1800.0 * inner radius of thick part ZCC B450 0.0 0.0 22.0 * the fixed cone (put biasing cut in here with the 40cm, 70, 90 cm layers) TRC B451 0.0 0.0 2200.1 0.0 0.0 -800.2 106.0 25.5 * the layers around the fixed cone TRC B452 0.0 0.0 2200.1 0.0 0.0 -800.2 111.0 30.5 ZCC B453 0.0 0.0 90.0 ZCC B454 0.0 0.0 110.0 ZCC B455 0.0 0.0 130.0 ZCC B456 0.0 0.0 150.0 ZCC B457 0.0 0.0 175.0 * start of block-house XYP B458 2200.0 * outer radius of water tank in thin shield ZCC B459 0.0 0.0 100.0 * z-stops for the block-house thick part joining XYP B460 2180.0 XYP B461 2220.0 XYP B462 2240.0 * cut in the collimator shielding ZCC B463 0.0 0.0 45.0 * radii of block-house RPP B464 -100.0 100.0 -95.0 105.0 -9999.0 9999.0 ZCC B465 0.0 0.0 200.0 ZCC B466 0.0 0.0 230.0 ZCC B467 0.0 0.0 250.0 ZCC B468 0.0 0.0 250.0 * joining cones TRC B469 0.0 0.0 1850.1 0.0 0.0 -151.6 117.03 0.0001 TRC B470 0.0 0.0 1850.1 0.0 0.0 -162.5 125.45 0.0001 TRC B471 0.0 0.0 1850.1 0.0 0.0 -178.4 137.7 0.0001 TRC B472 0.0 0.0 1850.1 0.0 0.0 -190.0 155.0 0.0001 TRC B473 0.0 0.0 1850.1 0.0 0.0 -216.7 177.5 15.0001 * Iron cast TRC B473a 0.0 0.0 1850.1 0.0 0.0 -216.7 176.25 13.7501 * collimator XYP B474 1905.0 XYP B475 2085.0 ZCC B476 0.0 0.0 1.7 * quad XYP B477 2280.0 * radius of Q1 cold mass ZCC B478 0.0 0.0 24.5 TRC B479 0.0 0.0 1080.7999 0.0 0.0 246.0272 8.505 10.52 TRC B480 0.0 0.0 1080.7999 0.0 0.0 246.0272 8.816 10.67 * beam pipe after collimator (steel) ZCC B481 0.0 0.0 2.3 ZCC B482 0.0 0.0 3.15 * pumping stations ZCC B483 0.0 0.0 15.0 * second XYP B484 2150.0 XYP B485 2155.0 * first XYP B486 1820.0 * first XYP B486a 1821.0 XYP B487 1885.0 * here we start some additional layers, forgotten above * barrel yoke divisions * to divide rb1 ZCC B488 0.0 0.0 475.0 * to divide rb2 ZCC B489 0.0 0.0 555.5 ZCC B490 0.0 0.0 576.5 * to divide rb3 ZCC B491 0.0 0.0 658.0 ZCC B492 0.0 0.0 679.0 * forward yoke divisions * to divide rf1 XYP B493 760.0 * to divide rf2 XYP B494 880.0 * minimum radii for forward yoke elements * nose 1 ZCC B495 0.0 0.0 75.0 * nose 2 and RF1 ** ZCC B496 0.0 0.0 85.0 * radial division of forward part ZCC B497 0.0 0.0 345.0 * forward Yoke R-limit ZCC B498 0.0 0.0 695.5 * front face of block house XYP B499 2170.0 * innermost of the joining cones TRC B500 0.0 0.0 1800.1 0.0 0.0 -90.8 70.0 1E-05 * 5cm surface layers to muon stations (used for lower E-cuts) * in RB1 ZCC B501 0.0 0.0 464.0 ZCC B502 0.0 0.0 483.5 * in RB2 ZCC B503 0.0 0.0 539.5 ZCC B504 0.0 0.0 592.5 * in RB3 ZCC B505 0.0 0.0 642.0 ZCC B506 0.0 0.0 695.0 * in nose XYP B507 637.0 * in RF1 XYP B508 729.0 XYP B509 781.0 * in RF2 XYP B510 854.0 XYP B511 904.0 * in RF3 XYP B512 982.0 XYP B513 997.0 * these limit the pentaprism 'ring' in the FW cone ZCC B514 0.0 0.0 24.0 ZCC B515 0.0 0.0 26.0 XYP B516 668.0 * these give the air limits around it, to approach accurately ZCC B517 0.0 0.0 32.0 XYP B518 660.0 XYP B519 675.0 * the RPC:s for barrel chambers (start with upper of first bakelite, * i.e. no air between dtbx and rpc. * MB1 ZCC B520 0.0 0.0 441.3 ZCC B521 0.0 0.0 441.5 ZCC B522 0.0 0.0 442.3 ZCC B523 0.0 0.0 442.5 ZCC B524 0.0 0.0 442.9 * MB2 ZCC B525 0.0 0.0 531.3 ZCC B526 0.0 0.0 531.5 ZCC B527 0.0 0.0 532.3 ZCC B528 0.0 0.0 532.5 ZCC B529 0.0 0.0 532.9 * MB3 ZCC B530 0.0 0.0 631.3 ZCC B531 0.0 0.0 631.5 ZCC B532 0.0 0.0 632.3 ZCC B533 0.0 0.0 632.5 ZCC B534 0.0 0.0 632.9 * MB4 ZCC B535 0.0 0.0 731.3 ZCC B536 0.0 0.0 731.5 ZCC B537 0.0 0.0 732.3 ZCC B538 0.0 0.0 732.5 ZCC B539 0.0 0.0 732.9 * barrel APD:s TRC B540 0.0 0.0 99.999 0.0 0.0 900.2 151.0 115.0 * forward APD:s XYP B541 344.0 * new for setup b * the eta=2.15 cone (to limit PE in lower parts of MF chambers) TRC B542 0.0 0.0 1201.0 0.0 0.0 -1200.0 283.41 0.23617 * these are the z-limits of the slabs, we make them 5cm thick * for MF1 XYP B543 572.3 XYP B544 628.3 * for MF2 XYP B545 792.3 XYP B546 845.7 * for MF3 XYP B547 918.3 XYP B548 970.7 * for MF4 XYP B549 1008.3 XYP B550 1056.7 * limit for cable bundles (14cm thick) XYP B551 680.0 ZCC B552 0.0 0.0 388.0 * new limits for forward shielding * top of water tank ZCC B553 0.0 0.0 185.0 ZCC B554 0.0 0.0 100.0 TRC B555 0.0 0.0 1850.1 0.0 0.0 -230.0 182.5 10.00001 * limits for the cones XYP B556 1830.0 XYP B557 1840.0 XYP B558 1850.0 * Pb-upper MF1 ZCC B559 0.0 0.0 95.5 * Pb-upper MF2 ZCC B560 0.0 0.0 128.5 * Pb-upper MF3 ZCC B561 0.0 0.0 151.0 * Pb-upper MF4 ****** ZCC B562 0.0 0.0 168.0 * start of fixed iron XYP B563 1805.0 XYP B564 1890.0 XYP B564a 1891.0 * HV inner radius ZCC B565 0.0 0.0 12.5 * start of thin shielding XYP B566 1543.0 * start of thin shielding XYP B566a 1544.0 * start of HV top shielding (3cm gap) XYP B567 1086.0 * inner radius at HF PMT box ZCC B568 0.0 0.0 160.0 * Big conical moderator behind HF TRC B569 0.0 0.0 1335.1 0.0 0.0 -52.7 100.0 10.0 TRC B570 0.0 0.0 1345.1 0.0 0.0 -52.7 100.0 10.0 * upper of glass plate to represent PM:s XYP B571 1348.0 XYP B572 1354.5 XYP B573 1363.0 * HF end plug end XYP B574 1540.0 XYP B575 1345.0 * limit of HF-PM shielding ZCC B576 0.0 0.0 102.0 * the new layers in the HE in the new design ! XYP B577 516.21 XYP B578 524.13 XYP B579 525.01 XYP B580 532.93 XYP B581 533.81 XYP B582 541.73 XYP B583 542.61 XYP B584 550.53 XYP B585 551.41 XYP B586 553.17 XYP B587 554.05 XYP B588 556.0 XYP B589 566.0 * z-limit for barrel HPD box XYP B590 407.0 * r-limit for endcap HPD box ZCC B591 0.0 0.0 254.0 * upper z for barrel HPD XYP B592 429.0 * upper limit for crystals, apd:s, central TRC B593 0.0 0.0 -0.0001 0.0 0.0 1000.0 152.0 122.0 TRC B594 0.0 0.0 -0.0001 0.0 0.0 1000.0 154.0 124.0 * transition to larger slope XYP B595 100.0 * air layer for sprctral scoring around HF ZCC B596 0.0 0.0 220.0 * ME1 CSC continued... XYP B597 584.32 XYP B598 584.48 XYP B599 585.48 * L5 XYP B600 585.64 XYP B601 586.94 XYP B602 587.1 XYP B603 588.1 * L6 XYP B604 588.26 XYP B605 589.56 XYP B606 589.72 XYP B607 590.72 * last plane XYP B608 590.88 XYP B609 592.18 XYP B610 592.34 * ME1A-B CSC continued... XYP B611 704.32 XYP B612 704.48 XYP B613 705.48 * L5 XYP B614 705.64 XYP B615 706.94 XYP B616 707.1 XYP B617 708.1 * L6 XYP B618 708.26 XYP B619 709.56 XYP B620 709.72 XYP B621 710.72 * last plane XYP B622 710.88 XYP B623 712.18 XYP B624 712.34 * ME2 CSC continued... XYP B625 837.32 XYP B626 837.48 XYP B627 838.48 * L5 XYP B628 838.64 XYP B629 839.94 XYP B630 840.1 XYP B631 841.1 * L6 XYP B632 841.26 XYP B633 842.56 XYP B634 842.72 XYP B635 843.72 * last plane XYP B636 843.88 XYP B637 845.18 XYP B638 845.34 * ME3 CSC continued... XYP B639 929.32 XYP B640 929.48 XYP B641 930.48 * L5 XYP B642 930.64 XYP B643 931.94 XYP B644 932.1 XYP B645 933.1 * L6 XYP B646 933.26 XYP B647 934.56 XYP B648 934.72 XYP B649 935.72 * last plane XYP B650 935.88 XYP B651 937.18 XYP B652 937.34 * ME4 CSC continued... XYP B653 1019.32 XYP B654 1019.48 XYP B655 1020.48 * L5 XYP B656 1020.64 XYP B657 1021.94 XYP B658 1022.1 XYP B659 1023.1 * L6 XYP B660 1023.26 XYP B661 1024.56 XYP B662 1024.72 XYP B663 1025.72 * last plane XYP B664 1025.88 XYP B665 1027.18 XYP B666 1027.34 * added plates to HB ZCC B667 0.0 0.0 179.9 ZCC B668 0.0 0.0 180.72 ZCC B669 0.0 0.0 185.64 ZCC B670 0.0 0.0 186.46 ZCC B671 0.0 0.0 191.38 XYP B672 300.0 * low limit for RF2 ZCC B673 0.0 0.0 97.5 * Al-plate behind EE XYP B674 349.0 * moderator on HE side in EE/HE gap XYP B675 398.05 * end FW moderator XYP B676 316.7 * notch in EE/HE moderator XYP B677 356.0 ZCC B678 0.0 0.0 100.0 * conical layers in the thick shielding TRC B679 0.0 0.0 2200.1 0.0 0.0 -800.2 116.0 46.0 TRC B680 0.0 0.0 2200.1 0.0 0.0 -800.2 183.5 123.5 TRC B681 0.0 0.0 2200.1 0.0 0.0 -800.2 188.5 128.5 * end of steel insert XYP B682 2080.0 * cavity for a pump XYP B683 1850.0 XYP B684 1880.0 * door inner boundary TRC B685 0.0 0.0 2200.1 0.0 0.0 -800.2 86.0 6.0 * radius of shielding at z=2170-2265 ZCC B686 0.0 0.0 252.0 * start of block-house XYP B687 2265.0 * opening between z=2170-2265 RPP B688 -140.0 140.0 -150.0 150.0 -9999999.0 9999999.0 * planes defining the fillings at z=2170 PLA B689 0.0 -0.7071 0.7071 0.0 150.0 2184.1 PLA B690 0.0 0.7071 0.7071 0.0 -150.0 2184.1 PLA B691 -0.7071 0.0 0.7071 140.0 0.0 2184.1 PLA B692 0.7071 0.0 0.7071 -140.0 0.0 2184.1 * plane at 2115 cm XYP B693 2115.0 * planes at y= +/- 800 XZP B694 -80.0 XZP B695 80.0 * planes at y= +/- 1800 XZP B696 -170.0 XZP B697 185.0 * planes to thin down on the sides PLA B698 0.482 0.0 -0.876171 185.0 0.0 2115.0 PLA B699 -0.482 0.0 -0.876171 -185.0 0.0 2115.0 * side upper limits between 2115-2170 YZP B700 -185.0 YZP B701 185.0 * planes define the outer fillings on the sides PLA B702 0.7071 0.0 -0.7071 199.1 0.0 2170.0 PLA B703 -0.7071 0.0 -0.7071 -199.1 0.0 2170.0 * lower limit for the block-house upper lid XZP B704 195.0 * upper limit for the block-house lower lid XZP B705 -175.0 * hole for support of iron nose RPP B706 -20.0 20.0 -1000.0 1000.0 2190.0 2256.0 * hole in upper lid for support of iron nose RPP B707 -20.0 20.0 190.0 253.0 -1000.0 2246.0 * hole in lower part of shield for support of frame RPP B708 -85.0 85.0 -200.0 -100.0 2190.0 2256.0 * start of Q1 vessel XYP B709 2205.0 XYP B710 2204.0 * cylinder of Q1 vessel ZCC B711 0.0 0.0 42.0 ZCC B712 0.0 0.0 43.0 * lower of second pump XYP B713 1880.0 * upper layer for spectral scroring ZCC B714 0.0 0.0 400.0 * radius to cut spectra scoring along in ME4 wall ZCC B715 0.0 0.0 500.0 * new radius of HF back shieling ZCC B716 0.0 0.0 70.0 * TAS radius ZCC B717 0.0 0.0 25.0 * Clearance for TAS ZCC B718 0.0 0.0 27.0 XYP B719 1895.0 * end of steel behind TAS XYP B720 2082.0 * spectral scoring around barrel ZCC B721 0.0 0.0 1100.0 * beam pipe structure between HF and TAS TRC B722 0.0 0.0 1399.1 0.0 0.0 -34.2 2.75 14.0 TRC B723 0.0 0.0 1399.1 0.0 0.0 -34.2 2.85 14.3 TRC B724 0.0 0.0 1744.9 0.0 0.0 55.2 2.75 10.0 TRC B725 0.0 0.0 1744.9 0.0 0.0 55.2 2.85 10.4 ZCC B726 0.0 0.0 2.75 ZCC B727 0.0 0.0 2.85 XYP B728 1365.0 XYP B729 1380.0 XYP B730 1745.0 XYP B731 1800.0 * boxes to contain vacuum pumps RPP B732 -35.0 35.0 0.0 57.0 1450.0 1480.0 XYP B733 1450.0 XYP B734 1480.0 RPP B735 -35.0 35.0 0.0 100.0 1804.0 1835.0 XYP B736 1835.0 * holes for support jacks * YCC 737 1948. 0.0 10.0 * YCC 738 2030. 0.0 10.0 YCC B737 1950.0 0.0 10.0 YCC B738 2033.0 0.0 10.0 * holes for support rods YCC B739 1955.0 0.0 3.6 YCC B740 2037.0 0.0 3.6 ZCC B741 0.0 0.0 45.1 ZCC B742 0.0 0.0 39.0 * holes from outside to jacks YCC B743 1948.0 0.0 0.5 YCC B744 2030.0 0.0 0.5 * cut-out from the lateral shielding of the HF at back * TRC 745 0.0 0.0 1274.9 0.0 0.0 55.2 * 134.9 154.9 TRC B745 0.0 0.0 1279.9 0.0 0.0 55.2 134.9 154.9 * inner radius of HF plug ZCC B746 0.0 0.0 17.0 * beam pipe inside HF plug TRC B747 0.0 0.0 1338.5999 0.0 0.0 5.90011 13.47 2.75 TRC B748 0.0 0.0 1338.5999 0.0 0.0 5.90011 13.57 2.85 ZCC B749 0.0 0.0 14.0 ZCC B750 0.0 0.0 14.3 XYP B751 1327.0 * new limit for upper concrete of thin shielding ZCC B752 0.0 0.0 95.0 TRC B753 0.0 0.0 2200.1 0.0 0.0 -800.2 125.0 55.0 * central plate of ME1/1 XYP B754 597.0 XYP B755 605.0 * YN-side of ME1/1 XYP B756 610.0 XYP B757 610.16 XYP B758 611.46 XYP B759 611.62 XYP B760 612.62 * L2 XYP B761 612.78 XYP B762 614.08 XYP B763 614.24 XYP B764 615.24 * L3 XYP B765 615.4 XYP B766 616.7 XYP B767 616.86 XYP B768 617.86 * L4 XYP B769 618.02 XYP B770 619.32 XYP B771 619.48 XYP B772 620.48 * L5 XYP B773 620.64 XYP B774 621.94 XYP B775 622.1 XYP B776 623.1 * L6 XYP B777 623.26 XYP B778 624.56 XYP B779 624.72 XYP B780 625.72 * last plane XYP B781 625.88 XYP B782 627.18 XYP B783 627.34 * Stop moderator in ME1 on HE ZCC B784 0.0 0.0 130.0 * * XYP B785 361.9 TRC B786 0.0 0.0 362.0 0.0 0.0 -4.5 6.45 5.32 TRC B787 0.0 0.0 362.0 0.0 0.0 -4.5 6.65 5.52 * the new cone to cut the EE lower edge TRC B788 0.0 0.0 400.2 0.0 0.0 -100.4 40.64 33.6 * bellows XYP B789 314.1 XYP B790 316.4 XYP B791 324.18 XYP B792 325.9 XYP B793 338.3 XYP B794 339.5 XYP B795 347.36 XYP B796 348.055 ZCC B797 0.0 0.0 5.48 ZCC B798 0.0 0.0 7.0 TRC B799 0.0 0.0 316.41 0.0 0.0 -2.31001 5.479 4.69 TRC B800 0.0 0.0 324.17999 0.0 0.0 1.72002 5.48 4.842 TRC B801 0.0 0.0 316.41 0.0 0.0 -2.31001 5.58 4.79 TRC B802 0.0 0.0 324.17999 0.0 0.0 1.72002 5.585 4.972 TRC B803 0.0 0.0 339.501 0.0 0.0 -1.2011 5.48 5.042 TRC B804 0.0 0.0 347.35999 0.0 0.0 0.69502 5.48 5.187 TRC B805 0.0 0.0 339.501 0.0 0.0 -1.2011 5.58 5.142 TRC B806 0.0 0.0 347.35999 0.0 0.0 0.69502 5.6 5.307 * eta=1.566 to limit top lid of HE TRC B807 0.0 0.0 600.0 0.0 0.0 -599.0 262.09 0.4368 * z-limits of the Pb-slabs on the CSC sides (see bodies 545-550) * MF2 XYP B808 791.0 XYP B809 850.8 * MF3 XYP B810 913.2 XYP B811 972.0 * MF4 XYP B812 1003.2 XYP B813 1058.0 * further z-subdivisions of the slabs * MF2 XYP B814 789.0 XYP B815 788.0 XYP B816 849.0 XYP B817 850.0 * MF3 XYP B818 915.0 XYP B819 914.0 XYP B820 974.0 XYP B821 975.0 * MF4 XYP B822 1005.0 XYP B823 1004.0 XYP B824 1065.0 XYP B825 1066.0 * further radial divisions * MF2 ZCC B826 0.0 0.0 124.9 ZCC B827 0.0 0.0 121.0 * MF3 ZCC B828 0.0 0.0 147.4 ZCC B829 0.0 0.0 143.5 * MF4 ZCC B830 0.0 0.0 164.4 ZCC B831 0.0 0.0 160.5 * MF 1 ZCC B832 0.0 0.0 91.3 ZCC B833 0.0 0.0 90.0 XYP B834 571.0 XYP B835 629.5 * Radii of outer cylinders of this rot shielding * R1 ZCC B836 0.0 0.0 160.0 * iron cast ZCC B836a 0.0 0.0 159.0 ZCC B837 0.0 0.0 165.0 * R1 ZCC B838 0.0 0.0 174.0 * R1 ZCC B838a 0.0 0.0 173.0 ZCC B839 0.0 0.0 179.0 * limits for vertical BPE pieces XYP B840 1885.0 XYP B841 1815.0 * * Continue Tracker description * * TIB length XYP B842 72.0 * TID * D1 XYP B843 77.0 XYP B844 77.03 * D2 XYP B845 90.0 XYP B846 90.03 * D3 XYP B847 105.0 XYP B848 105.03 * inner and outer radii of TID same as of TIB (23.4 and 50.03 -- vol 36 and 43) * TOB XYP B849 110.0 * L1 ZCC B850 0.0 0.0 61.0 ZCC B851 0.0 0.0 61.05 * L2 ZCC B852 0.0 0.0 69.6 ZCC B853 0.0 0.0 69.65 * L3 ZCC B854 0.0 0.0 78.2 ZCC B855 0.0 0.0 78.25 * L4 ZCC B856 0.0 0.0 86.8 ZCC B857 0.0 0.0 86.85 * L5 ZCC B858 0.0 0.0 96.5 ZCC B859 0.0 0.0 96.55 * L6 ZCC B860 0.0 0.0 108.0 ZCC B861 0.0 0.0 108.05 * TEC * outer radius same as of TOB * inner radius of D1-3 same as of TID (vol 36) * inner radii of D4-6 ZCC B862 0.0 0.0 32.0 * inner radii of D7-8 ZCC B863 0.0 0.0 39.0 * inner radius of D9 ZCC B864 0.0 0.0 51.0 * D1 XYP B865 125.0 XYP B866 125.05 * D2 XYP B867 137.0 XYP B868 137.05 * D3 XYP B869 152.0 XYP B870 152.05 * D4 XYP B871 168.0 XYP B872 168.05 * D5 XYP B873 185.0 XYP B874 185.05 * D6 XYP B875 203.0 XYP B876 203.05 * D7 XYP B877 223.0 XYP B878 223.05 * D8 XYP B879 247.0 XYP B880 247.05 * D9 XYP B881 272.0 XYP B882 272.05 * SE support cone TRC B883 0.0 0.0 1200.0 0.0 0.0 -1000.0 117.78 17.96 TRC B884 0.0 0.0 1200.0 0.0 0.0 -1000.0 117.48 17.66 ZCC B885 0.0 0.0 45.0 XYP B886 390.0 * to limit biasing regions in HE ZCC B887 0.0 0.0 80.0 * 2nd step in thick shielding XYP B888 1980.0 XYP B889 1985.0 XYP B889a 1986.0 ZCC B890 0.0 0.0 167.0 ZCC B890a 0.0 0.0 166.0 ZCC B891 0.0 0.0 172.0 * representing TOB end-flange ZCC B892 0.0 0.0 108.0 XYP B893 113.75 XYP B894 113.0 * layers for the BPE/Pb sandwich in the HF plug XYP B895 1357.1 XYP B896 1358.8 ZCC B897 0.0 0.0 97.5 * define castor (on plus and minus side) ZCC B898 0.0 0.0 4.0 ZCC B899 0.0 0.0 18.0 ZCC B899a 0.0 0.0 31.8 TRC B900 0.0 0.0 2021.0 0.0 0.0 -585.0 585.0 0.0 TRC B901 0.0 0.0 2021.0 0.0 0.0 -450.0 450.0 0.0 TRC B900m 0.0 0.0 -2021.0 0.0 0.0 585.0 585.0 0.0 TRC B901m 0.0 0.0 -2021.0 0.0 0.0 450.0 450.0 0.0 #if 0 XYP B900 1439.0 #endif #if 0 XYP B901 1587.0 #endif #if 0 XYP B900m -1439.0 #endif #if 0 XYP B901m -1587.0 #endif * new layers in the HF-collar (transition plug) region ZCC B902 0.0 0.0 90.0 ZCC B903 0.0 0.0 97.5 * start of HF collar XYP B904 1436.0 * new layers in the HF-collar (transition plug) region ZCC B905 0.0 0.0 115.0 ZCC B906 0.0 0.0 122.5 * top of the collar (top pf Pb (collar)/BPE(rot shld)) ZCC B907 0.0 0.0 120.0 ZCC B908 0.0 0.0 50.0 ZCC B909 0.0 0.0 70.0 ZCC B910 0.0 0.0 90.0 ZCC B911 0.0 0.0 115.0 * 30 degree chamfer in the collar TRC B912 0.0 0.0 1536.1 0.0 0.0 -100.2 146.3 88.6 TRC B913 0.0 0.0 1536.1 0.0 0.0 -100.2 154.9 97.2 TRC B914 0.0 0.0 1536.1 0.0 0.0 -100.2 157.8 100.1 XYP B915 1536.0 * new steel radius in thin shld ZCC B916 0.0 0.0 70.0 * new outer radii of thin RS ZCC B917 0.0 0.0 114.0 * outer radii of metal cast thin RS ZCC B917a 0.0 0.0 115.0 ZCC B918 0.0 0.0 120.0 * pumps at 13m (34kg in total, 5.9kg/cm) ZCC B919 0.0 0.0 20.0 XYP B920 1293.0 XYP B921 1298.7 ZCC B922 0.0 0.0 12.8 * Flange at z=1070cm ZCC B923 0.0 0.0 15.3 XYP B924 1074.0 XYP B925 1068.8 * Pipe enlargement at 17-18m * for sub-version x only 5cm radius TRC B926 0.0 0.0 1652.48001 0.0 0.0 -7.46802 5.027 3.025 TRC B927 0.0 0.0 1652.48001 0.0 0.0 -7.46802 5.177 3.182 XYP B928 1645.012 XYP B929 1652.48 ZCC B930 0.0 0.0 5.027 ZCC B931 0.0 0.0 5.177 * bakeout jackets TRC B932 0.0 0.0 1652.5 0.0 0.0 -9.6 8.1 5.85 ZCC B933 0.0 0.0 8.1 * dummies XYP B934 1792.0 XYP B935 1855.0 * pipe and bellows at z=16m (use thicker pipe to represent bellows) ZCC B936 0.0 0.0 4.5 ZCC B937 0.0 0.0 4.7 ZCC B938 0.0 0.0 6.65 XYP B939 1605.5 XYP B940 1608.5 XYP B941 1631.0 XYP B942 1634.0 * the bellows at 16m ZCC B943 0.0 0.0 8.0 ZCC B944 0.0 0.0 5.5 XYP B945 1613.2 XYP B946 1626.2 * middle of flanges XYP B947 1607.0 XYP B948 1632.5 * radial divisions for spectral scoring in TK ZCC B949 0.0 0.0 35.0 ZCC B950 0.0 0.0 60.0 ZCC B951 0.0 0.0 90.0 * TK endflange XYP B952 290.0 XYP B953 280.0 * definition of bcm2 ZCC B954 0.0 0.0 30.7 ZCC B955 0.0 0.0 29.7 XYP B956 1438.775 XYP B957 1439.125 XYP B956a 1438.875 XYP B957a 1438.925 ZCC B958 0.0 0.0 6.3 ZCC B959 0.0 0.0 5.3 * bcm2 behind castor, testdetectors ZCC B960 0.0 0.0 30.7 ZCC B961 0.0 0.0 29.7 XYP B962 1596.875 XYP B963 1596.925 ZCC B964 0.0 0.0 6.3 ZCC B965 0.0 0.0 5.3 * bcm1F perpendicular to beampipe 5x5mm ZCC B966 0.0 0.0 5.536 ZCC B967 0.0 0.0 6.036 XYP B968 183.298 XYP B969 183.338 * bcm1L parallel to beampipe 1x1cm ZCC B970 0.0 0.0 4.72 ZCC B971 0.0 0.0 4.76 XYP B972 182.342 XYP B973 183.342 * thicker bp at z=1587 XYP B974 1587.1 ZCC B975 0.0 0.0 3.175 ZCC B976 0.0 0.0 3.025 * Bellow at z=1326cm XYP B977 1326.827001 XYP B978 1327.3 XYP B979 1336.1 XYP B980 1338.6 ZCC B981 0.0 0.0 16.92 ZCC B982 0.0 0.0 20.02 ZCC B983 0.0 0.0 10.43 ZCC B984 0.0 0.0 13.47 XYP B985 1344.5 XYP B986 1314.83 * Shaft inner wall YCC B987 1386. 0.0 1019.25 * Shaft inner wall YCC N987 -1386. 0.0 1019.25 * Shaft outer wall YCC B988 1386. 0.0 1219.25 * Shaft outer wall YCC N988 -1386. 0.0 1219.25 * Shaft top surface ZCC B989 0.0 0.0 10000.0 XZP B990 0.0 * Cutting plane subtracted in each region to redefine blockhouse geometry XYP Bcut 2090.0 * Vac Pump at 13m new version XYP B991 1354.0 XYP B992 1361.0 ZCC B993 0.0 0.0 20.0 ZCC B994 0.0 0.0 13.0 * air gap in bellow at 13m XYP B995 1328.0 XYP B996 1333.0 ZCC B997 0.0 0.0 17.5 ZCC B998 0.0 0.0 256. * BSC2 scoring volume layers ZCC B999 0.0 0.0 23.0 ZCC B1000 0.0 0.0 43.0 ZCC B1001 0.0 0.0 126.0 ZCC B1002 0.0 0.0 152.0 XYP B1003 1084.8 XYP B1004 1085.8 ZCC B1006 0.0 0.0 153.7 * formely CylI RCC B1007 0.0 0.0 -1. 0.0 0.0 1202. 1000. * formely CylIO RCC B1008 0.0 0.0 -1. 0.0 0.0 1202. 1100. * formely CylI2 RCC B1009 0.0 0.0 -1. 0.0 0.0 2800. 200. * formely CylO2 RCC B1010 0.0 0.0 -1. 0.0 0.0 2800. 500. * BH RPP B1011 -270.0 270.0 -196.0 289.6 2050.0 3300.0 RPP B1011a -100.0 100.0 -95.1 104.8 2050.0 3300.0 * outer shell of Quadrupole ZCC B1012 0.0 0.0 45.7 ZCC B1012a 0.0 0.0 44.7 * Beampipe/inner shell of quadrupole ZCC B1013 0.0 0.0 2.3 * cold mass ZCC B1014 0.0 0.0 24.5 * cut for magfld XYP B1015 2280. XYP B1016 2231. XYP B1017 2232. * Start of BH concrete XYP B1018 2257.0 * Hinges RPP B1019 269.0 329.5 -165.5 233.7 2185.0 2225.0 * Hinges RPP B1020 -329.5 -269.0 -165.5 233.7 2185.0 2225.0 * outer concrete blocks RPP B1021 200.0 271.0 -109.0 141.5 2168.0 2253.3 RPP B1022 -271.0 -200.0 -109.0 141.5 2165.0 2253.3 * inner concrete blocks RPP B1023 148.0 200.5 -165.5 160.5 2168.0 2253.3 RPP B1024 -200.5 -148. -165.5 160.5 2168.0 2253.3 * rect. part of RS RPP B1025 -203.0 203.0 -165.7 174.2 2089.0 2169.0 * concrete underneath bh RPP B1026 -290.0 290.0 -263.0 -195.0 2173.0 3300.0 * fixture for fin RPP B1027 -135.0 135.0 -159.7 150.0 2203.5 2243.5 * inner fixture for fin RPP B1028 -104.0 104.0 -95.1 100.0 2203.5 2243.5 * steel plate holding FIN RPP B1029 -112.0 112.0 -101.9 101.0 2179.0 2189.1 XYP B1030 2179.1 * overhanging roof RPP B1031 -197.0 197.0 163.0 300.0 2170.0 2262.0 XYP B1032 2197.5 XYP B1033 2202.5 ZCC B1034 0.0 0.0 20. * Totem T1 inner cone eta=3.1 TRC B1035 0.0 0.0 1200.0 0.0 0.0 -1000.0 115.78 15.96 * cone limiting T1 support structure * 2cm smaller thant B78. thickness to be redifined TRC B1035a 0.0 0.0 1200.0 0.0 0.0 -1000.0 117.78 17.96 * cone limiting T1 rings used to simulate metal structure and electronics TRC B1035b 0.0 0.0 1200.0 0.0 0.0 -1000.0 117.28 17.46 * T1 Layer1 Ring inner side XYP B1036 749.8 * T1 Layer1 Ring outer side XYP B1037 759.8 * T1 Layer1 Electronics and metal support structure XYP B1037a 770.0 XYP B1037b 790.0 XYP B1037c 800.0 * T1 Layer2 Ring inner side XYP B1038 816.8 * T1 Layer2 Ring outer side XYP B1039 826.8 * T1 Layer2 Electronics and metal support structure XYP B1039a 832.0 XYP B1039b 842.0 XYP B1039c 862.0 XYP B1039d 872.0 * T1 Layer3 Ring inner side XYP B1040 877.5 * T1 Layer3 Ring outer side XYP B1041 887.5 * T1 Layer3 Electronics and metal support structure XYP B1041a 907.0 XYP B1041b 917.0 * T1 Layer4 Ring inner side XYP B1042 938.2 * T1 Layer4 Ring outer side XYP B1043 948.2 * T1 Layer4 Electronics and metal support structure XYP B1043a 970.0 XYP B1043b 990.0 XYP B1043c 1000.0 * T1 Layer5 Ring inner side XYP B1044 1014.5 * T1 Layer5 Ring outer side XYP B1045 1024.5 * T1 Layer6 Ring inner side XYP B1046 1045.0 * T1 Layer6 Ring outer side XYP B1047 1055.0 * T1 Layer1 detector inner side XYP B1048 752.6 * T1 Layer1 detector outer side XYP B1049 757.0 * T1 Layer2 detector inner side XYP B1050 819.6 * T1 Layer2 detector outer side XYP B1051 824.0 * T1 Layer3 detector inner side XYP B1052 880.3 * T1 Layer3 detector outer side XYP B1053 884.7 * T1 Layer4 detector inner side XYP B1054 941.0 * T1 Layer4 detector outer side XYP B1055 945.4 * T1 Layer5 detector inner side XYP B1056 1017.3 * T1 Layer5 detector outer side XYP B1057 1021.7 * T1 Layer6 detector inner side XYP B1058 1047.8 * T1 Layer6 detector outer side XYP B1059 1052.2 #if 0 * T2 front plane XYP B1060 1381.7 #endif #if 0 * T2 outer radius ZCC B1061 0.0 0.0 21.26 #endif #if 0 * T2 inner radius ZCC B1062 0.0 0.0 3.75 #endif XYP B1063 3.0 #if 0 * sourrunding with air RPP air -10000.0 10000.0 -10000.0 10000.0 -10000.0 10000.0 #endif * TOTEM-T2 cylindrical layers of the structure ZCC outer 0.0 0.0 21.26 ZCC coolin 0.0 0.0 17.40 ZCC middle 0.0 0.0 15.76 ZCC inner 0.0 0.0 3.75 ZCC cocil1 11.5 -9.5 2.4 ZCC cocil2 -11.5 9.5 2.4 * TOTEM-T2 layers definition (both for chambers and cooling layers definition) XYP innla 1381.70 XYP cool1f 1384.12 XYP endl1f 1385.12 XYP begl2n 1386.30 XYP cool2n 1388.72 XYP endl2n 1389.72 XYP begl3f 1390.90 XYP cool3f 1393.32 XYP endl3f 1394.32 XYP begl4n 1395.50 XYP cool4n 1397.92 XYP endl4n 1398.92 XYP begl5f 1400.10 XYP cool5f 1402.52 XYP endl5f 1403.52 XYP begl6n 1404.70 XYP cool6n 1407.12 XYP endl6n 1408.12 XYP begl7f 1409.30 XYP cool7f 1411.72 XYP endl7f 1412.72 XYP begl8n 1413.90 XYP cool8n 1416.32 XYP endl8n 1417.32 XYP begl9f 1418.50 XYP cool9f 1420.92 XYP endl9f 1421.92 XYP bel10n 1423.10 XYP col10n 1425.52 XYP enl10n 1426.52 XYP outla 1433.00 * Bodies to build the cuts of the TOTEM-T2 GEM chambers and surrounding cooling ring PLA ang1 -15.674 1.647 0.0 0.0 0.0 1381.70 PLA ang1co -16.522 13.379 0.0 0.0 0.0 1381.70 PLA ang2 15.674 1.647 0.0 0.0 0.0 1381.70 PLA ang2co 16.522 13.379 0.0 0.0 0.0 1381.70 * First 11th card of TOTEM-T2 RPP elecard1 +21.26 +21.66 -8.00 +8.00 +1386.30 +1432.30 * Second 11th card of TOTEM-T2 RPP elecard2 -21.66 -21.26 -8.00 +8.00 +1381.70 +1427.70 * Support bars (empty) ZCC suppbar1 +11.25 +19.48 0.9 ZCC suppbin1 +11.25 +19.48 0.8 ZCC suppbar2 -11.25 +19.48 0.9 ZCC suppbin2 -11.25 +19.48 0.8 ZCC suppbar3 +11.25 -19.48 0.9 ZCC suppbin3 +11.25 -19.48 0.8 ZCC suppbar4 -11.25 -19.48 0.9 ZCC suppbin4 -11.25 -19.48 0.8 * Support legs which hold the full detector structure of TOTEM-T2 on HF RPP suppleg1 +7.75 +14.75 -100.0 +30.0 +1433.00 +1435.00 RPP suppleg2 -14.75 -7.75 -100.0 +30.0 +1433.00 +1435.00 XZP heboxy2 -261. XZP heboxy1 -262. XYP heboxz2 550.0 XYP heboxz1 540.0 YZP heboxx2 5.0 YZP heboxx1 -5.0 XYP hbboxz1 410.0 XYP hbboxz2 420.0 XZP hbboxy1 -280.0 XZP hbboxy2 -279.0 YZP x1hfrack 220.0 YZP x2hfrack 221.0 XZP y3hfrack 124.0 XZP y4hfrack 306.0 XZP y1hfrack -81.0 XZP y2hfrack 70.0 XYP z1hfrack 1291.0 XYP z2hfrack 1345.0 XYP z3hfrack 1351.0 XYP z4hfrack 1405.0 END * ********************************************************************* * ---------------------------- REGIONS -------------------------------* * ********************************************************************* R001 5 | +B1 +N426 | +B1 -B423 -N426 +B426 -( +B988 +B989 -B423 -B990 ) | +B1 -B426 * *** vacuum from z=0 to z=27 (bias 1) R002 5 +B3 +B15 -B2 +Bcut R003 5 +B10 +B789 -B15 +Bcut R004 5 | +B799 +B790 -B789 +Bcut | +B797 +B791 -B790 +Bcut | +B800 +B792 -B791 +Bcut | +B10 +B793 -B792 +Bcut | +B803 +B794 -B793 +Bcut | +B797 +B795 -B794 +Bcut | +B804 +B796 -B795 +Bcut R005 5 +B10 +B18 -B796 +Bcut R006 5 | +B12 +B19 -B18 +Bcut | +B479 +B977 -B19 +Bcut R007 5 | +B983 -B977 +B978 +Bcut | +B981 -B978 +B979 +Bcut | +B984 -B979 +B980 +Bcut | +B747 -B980 +B985 +Bcut | +B726 -B985 +B974 +Bcut | +B976 +B939 -B974 +Bcut | +B936 +B945 -B947 +Bcut | +B976 -B939 +B940 +Bcut | +B944 +B946 -B945 +Bcut | +B936 +B948 -B946 +Bcut | +B976 +B928 -B948 +Bcut | +B926 +B929 -B928 +Bcut | +B930 +B713 -B929 +Bcut | +B726 +B474 -B713 +Bcut R008 5 +B476 +B475 -B474 +Bcut R009 5 +B481 +B426 -B475 +Bcut * *** beam pipe (bias 1) * central, beryllium R010 5 +B4 +B15 -B2 -B3 +Bcut * Joint SST R011 5 +B5 +B15 -B14 -B4 +Bcut * first cone, SST + flange R012 5 | +B11 +B789 -B15 -B10 +Bcut | +B8 +B17 -B16 -B11 +Bcut * piece with bellows, steel R013 5 +B801 +B790 -B789 -B799 +Bcut | +B802 +B792 -B791 -B800 +Bcut | +B11 +B793 -B792 -B10 +Bcut | +B805 +B794 -B793 -B803 +Bcut | +B806 +B796 -B795 -B804 +Bcut * second cone, SST R014 5 +B11 +B18 -B796 -B10 +Bcut * closing cone, SST R015 5 | +B13 +B19 -B18 -B12 +Bcut | +B923 +B924 -B925 -B13 +Bcut * pipe in VFCAL, steel R016 5 +B480 +B977 -B19 -B479 +Bcut * pipe in front and behind collimator, steel R017 5 | +B482 +B426 -B475 -B481 +Bcut | +B727 +B474 -B713 -B726 +Bcut * *** pumping stations, steel (bias 2) R018 5 +B483 +B485 -B484 -B482 +Bcut R019 5 +B483 +B487 -B713 -B727 +Bcut * *** air surrounding the beam pipe (bias 1) * in tracker, except between pixel layers * new pixel * Air between inner shielding and beam pipe R020 5 | +B21a +B14 -B2 -B4 +Bcut * R020 5 | +B21a +B14 -B2 -B4 -( +B967 -B966 -B968 +B969 ) -( +B971 -B970 * -B972 +B973 ) +Bcut * Air outside outer shielding, between edge of flange and supply tube R020a 5 | +B20 +B27b -B2 -B26b +Bcut | +B20 +B30a -B27b -B26c +Bcut * R020a 5 | +B20 +B27b -B2 -B26b -( +B967 -B966 -B968 +B969 ) -( +B971 -B970 * -B972 +B973 ) +Bcut * | +B20 +B30a -B27b -B26c -( +B967 -B966 -B968 +B969 ) -( +B971 -B970 * -B972 +B973 ) +Bcut * Air between supply tube and Service cylinder, service cylinder and flange R020b 5 | +B26c +B35b -B27b -B29c +Bcut | +B29c +B30b -B27b -B29b +Bcut * R020b 5 | +B26c +B35b -B27b -B29c -( +B967 -B966 -B968 +B969 ) -( +B971 -B970 * -B972 +B973 ) +Bcut * | +B29c +B30b -B27b -B29b -( +B967 -B966 -B968 +B969 ) -( +B971 -B970 * -B972 +B973 ) +Bcut * Air between Service cylinder and forward pixel R020c 5 | +B29b +B14 -B27b -B28a +Bcut * R020c 5 | +B29b +B14 -B27b -B28a -( +B967 -B966 -B968 +B969 ) -( +B971 -B970 * -B972 +B973 ) +Bcut * Air downstream forward detector R020d 5 | +B28a +B14 -B969 -B29a +Bcut | +B28a +B969 -B968 -B967 +Bcut | +B969 +B966 -B968 -B29a +Bcut | +B28a +B968 -B29a -B34 +Bcut * R020d 5 | +B28a +B14 -B34 -B29a -( +B967 -B966 -B968 +B969 ) -( +B971 -B970 * -B972 +B973 ) +Bcut * Air between inner shielding and inner radius of forward detector R020e 5 | +B29a +B14 -B973 -B21a +Bcut | +B29a +B973 -B972 -B971 +Bcut | +B973 +B970 -B972 -B21a +Bcut | +B29a +B972 -B21a -B27b +Bcut * R020e 5 | +B29a +B14 -B27b -B21a -( +B967 -B966 -B968 +B969 ) -( +B971 -B970 * -B972 +B973 ) +Bcut * Air downstream (upstream) SupplyTube&SupplyBox corresponds R020f 5 | +B26e +B870 -B34b -B26d +Bcut * R020f 5 | +B26e +B870 -B34b -B26d -( +B967 -B966 -B968 +B969 ) -( +B971 -B970 * -B972 +B973 ) +Bcut * Air between Supply Tube and SupplyTube&SupplyBox R020g 5 | +B26d +B870 -B2 -B20 +Bcut * R020g 5 | +B26d +B870 -B2 -B20 -( +B967 -B966 -B968 +B969 ) -( +B971 -B970 * -B972 +B973 ) +Bcut * Air around flange and cone vacuum pipe R020h 5 | +B29b +B15 -B14 -B5 +Bcut | +B29b +B35b -B15 -B11 +Bcut | +B20 +B55 -B35b -B11 +Bcut * R020h 5 | +B29b +B15 -B14 -B5 -( +B967 -B966 -B968 +B969 ) -( +B971 -B970 * -B972 +B973 ) +Bcut * | +B29b +B35b -B15 -B11 -( +B967 -B966 -B968 +B969 ) -( +B971 -B970 * -B972 +B973 ) +Bcut * | +B20 +B55 -B35b -B11 -( +B967 -B966 -B968 +B969 ) -( +B971 -B970 * -B972 +B973 ) +Bcut * end of new pixel * below preshower (bias 1) R021 5 +B46d +B56 -B55 -B20 +Bcut * between EE and SE support (bias 1) R022 5 | +B78 +B886 -B541 -B883 +Bcut | +B788 +B541 -B676 -B883 +Bcut | +B52 +B74 -B676 -B788 +Bcut | +B46d +B676 -B66 -B883 +Bcut * in forward cone below R=20 (bias 1) R023 5 | +B20 +B16 -B55 -B11 +Bcut | +B20 +B17 -B16 -B8 +Bcut | +B20 +B789 -B17 -B11 +Bcut | +B20 +B790 -B789 -B801 +Bcut | +B20 +B791 -B790 -B798 +Bcut | +B20 +B792 -B791 -B802 +Bcut | +B20 +B793 -B792 -B11 +Bcut | +B20 +B794 -B793 -B805 +Bcut | +B20 +B795 -B794 -B798 +Bcut | +B20 +B796 -B795 -B806 +Bcut | +B20 +B1048 -B796 -B11 +Bcut * in VFCAL (bias 1) R024 5 | +B565 +B185 -B183 -B480 +Bcut | +B565 +B190 -B921 -B480 +Bcut | +B565 +B921 -B920 -B480 +Bcut | +B565 +B920 -B186 -B480 +Bcut | +B565 +B977 -B190 -B480 +Bcut | +B565 +B751 -B977 -B982 +Bcut | +B178 +B751 -B977 -B982 +Bcut | +B178 +B977 -B190 -B480 +Bcut | +B178 +B980 -B751 -B982 +Bcut | +B178 +B985 -B980 -B748 +Bcut | +B178 +innla -B992 -B727 +Bcut | +B178 +B992 -B991 -B993 +Bcut | +B994 +B992 -B991 -B727 +Bcut | +B178 +B991 -B985 -B727 +Bcut | +B996 -B995 -B997 +B982 #if 0 * R024 5 | +B565 +B185 -B183 -B480 +Bcut -( +B993 +B992 -B994 -B991 ) * | +B565 +B190 -B921 -B480 +Bcut -( +B993 +B992 -B994 -B991 ) * | +B565 +B921 -B920 -B480 +Bcut -( +B993 +B992 -B994 -B991 ) * | +B565 +B920 -B186 -B480 +Bcut -( +B993 +B992 -B994 -B991 ) * | +B565 +B977 -B190 -B480 +Bcut -( +B993 +B992 -B994 -B991 ) * | +B565 +B751 -B977 -B982 +Bcut -( +B993 +B992 -B994 -B991 ) * | +B178 +B751 -B977 -B982 +Bcut -( +B993 +B992 -B994 -B991 ) * | +B178 +B977 -B190 -B480 +Bcut -( +B993 +B992 -B994 -B991 ) * | +B178 +B980 -B751 -B982 +Bcut -( +B993 +B992 -B994 -B991 ) * | +B178 +B985 -B980 -B748 +Bcut -( +B993 +B992 -B994 -B991 ) * | +B178 +innla -B985 -B727 +Bcut -( +B993 +B992 -B994 -B991 ) * | +B996 -B995 -B997 +B982 * from VFCAL to collimator (bias 1) R025 5 | +B442 +B900 -B727 -B957 +Bcut | +B442 +B957 -B958 -B956 +Bcut | +B442 +B956 -B441 -B727 -suppleg1 -suppleg2 +Bcut | +B957 +B959 -B727 -B956 +Bcut | +B898 +B901 -B900 -B727 +Bcut | +B442 +B901 -B900 -B899 +Bcut | +B442 +B939 -B901 -B727 -B975 -B974 +Bcut | +B442 +B974 -B901 -B727 +Bcut | +B442 +B940 -B939 -B938 +Bcut | +B442 +B945 -B940 -B937 +Bcut | +B442 +B946 -B945 -B943 +Bcut | +B442 +B941 -B946 -B937 +Bcut | +B442 +B942 -B941 -B938 +Bcut | +B442 +B928 -B942 -B975 +Bcut | +B442 +B929 -B928 -B932 +Bcut | +B442 +B731 -B929 -B933 +Bcut | +B463 +B736 -B731 -B933 +Bcut | +B450 +B713 -B736 -B933 +Bcut | +B450 +B487 -B713 -B483 +Bcut | +B450 +B719 -B487 -B727 +Bcut #endif * Air inside rotating shielding * goes with newest CASTOR model * (two layers of CASTOR, conical shape) * Related to Air region: R273 R025 5 | +B450 +B719 -B487 -B727 +Bcut | +B463 +B736 -B731 -B933 +Bcut | +B731 +B899a -B929 -B933 +Bcut | +B450 +B713 -B736 -B933 +Bcut | +B450 +B487 -B713 -B483 | +B899a +B929 -B928 -B932 +Bcut | +B899a +B928 -B942 -B975 +Bcut | +B899a +B942 -B941 -B938 +Bcut | +B899a +B941 -B946 -B937 +Bcut | +B899a +B946 -B945 -B943 +Bcut | +B899a +B940 -B939 -B938 +Bcut | +B899a +B945 -B940 -B937 +Bcut | +B974 +B901 -B727 +Bcut | +B899a +B939 +B901 -B727 -B975 -B974 +Bcut | +B898 -B957 +B974 -B727 +Bcut | +B899a -B957 -B900 +B974 -B727 +Bcut * R025 5 | +B442 +B900 -B441 -B727 -( +B958 -B959 -B956 +B957 )-suppleg1 -suppleg2 +Bcut * | +B898 +B901 -B900 -B727 +Bcut * | +B442 +B901 -B900 -B899 +Bcut * | +B442 +B939 -B901 -B727 -B975 -B974 +Bcut * | +B442 +B974 -B901 -B727 +Bcut * | +B442 +B940 -B939 -B938 +Bcut * | +B442 +B945 -B940 -B937 +Bcut * | +B442 +B946 -B945 -B943 +Bcut * | +B442 +B941 -B946 -B937 +Bcut * | +B442 +B942 -B941 -B938 +Bcut * | +B442 +B928 -B942 -B975 +Bcut * | +B442 +B929 -B928 -B932 +Bcut * | +B442 +B731 -B929 -B933 +Bcut * | +B463 +B736 -B731 -B933 +Bcut * | +B450 +B713 -B736 -B933 +Bcut * | +B450 +B487 -B713 -B483 +Bcut * | +B450 +B719 -B487 -B727 +Bcut * around collimator (bias 1) R026 5 | +B718 +B475 -B474 -B717 +Bcut | +B718 +B474 -B719 -B727 +Bcut | +B446 +B720 -B563 -B463 +B451 +B735 +Bcut | +B463 +B720 -B719 -B718 -B740 +B735 +Bcut * behind collimator (bias 1) * old 027 OR +450 +458 -475 -482OR +478 +477 -458 -482 +Bcut * behind collimator (bias 1) R027 5 | +B685 +B484 -B475 -B482 +Bcut | +B685 +B475 -B720 -B718 +Bcut * R027 5 | +B718 +B720 -B475 -B482 +Bcut -( +B475 +B718 ) * | +B685 +B484 -B720 -B482 +Bcut -( +B475 +B718 ) * | +B685 +B485 -B484 -B483 +Bcut -( +B475 +B718 ) * | +B685 +B458 -B485 -B482 +Bcut -( +B475 +B718 ) * | +B712 +B710 -B458 -B482 +Bcut -( +B475 +B718 ) * *** TRACKING * air between outer TK and R=20cm and around TK R028 5 | +B36 +B870 -B2 -B26e +Bcut | +B862 +B882 -B870 -B20 +Bcut | +B44 +B55 -B952 -B20 +Bcut | +B44 +B953 -B882 -B20 +Bcut | +B44 +B882 -B2 -B861 +Bcut * Air between TIB and TID R029 5 +B43 +B843 -B842 -B36 +Bcut * air TIB and TOB R030 5 +B850 +B848 -B2 -B43 +Bcut * air TIB/TOB and TEC R031 5 | +B850 +B849 -B848 -B36 +Bcut | +B861 +B894 -B849 -B36 +Bcut | +B861 +B893 -B894 -B892 +Bcut | +B861 +B865 -B893 -B36 +Bcut * SE support cone R032 5 | +B883 +B118 -B63 -B884 +Bcut | +B46d +B66 -B63 -B883 +Bcut | +B885 +B118 -B886 -B883 +Bcut * *** silicon layers (bias 1) * pixel (1st layer seperate for possible spectral scoring) * Barrel pixel detector (BPIX) * Inner shielding R033a 5 +B21b-B21a-B2 +B27a +Bcut * BPIX R1 - first layer R033 5 +B22 -B21 -B2 +B27 +Bcut * BPIX R2 - second layer R033b 5 +B24 -B23 -B2 +B27 +Bcut * BPIX R3 - third layer R033c 5 +B26 -B25 -B2 +B27 +Bcut * Outer shielding R033d 5 +B26b -B26a -B2 +B27a +Bcut * Cabels for BPIXs R033e 5 +B26a -B21 -B27 +B27a +Bcut * endFlange for BPIX R033f 5 +B26b -B21a -B27a +B27b +Bcut * Supply tube section C R033g 5 +B20 -B26c -B30a +B34 +Bcut * Supply tube section B R033h 5 +B20 -B26c -B34 +B35a +Bcut * Supply tube section A R033i 5 +B20 -B26c -B35a +B35b +Bcut * Supply tube& Supply boxes (nu < 2.33) 21.65 < R < 21.9 R033j 5 +B26e -B26d -B2 +B34b +Bcut * Forward pixel detector (FPIX) * FPIX1: external Layer R034a 5 +B28a -B28 -B30 +B31 +Bcut * FPIX1: central Layer (detector) R034 5 +B28 -B29 -B30 +B31 +Bcut * FPIX1: internal Layer R034b 5 +B29 -B29a -B30 +B31 +Bcut * FPIX2: external Layer R034c 5 +B28a -B28 -B32 +B33 +Bcut * FPIX2: central Layer (detector) R034d 5 +B28 -B29 -B32 +B33 +Bcut * FPIX2: internal Layer R034e 5 +B29 -B29a -B32 +B33 +Bcut * Service cylinder of FPIX (nu < 2.5) R034f 5 +B29c -B29b -B30b +B34b +Bcut * Service cylinder of FPIX (nu > 2.5) R034g 5 +B29c -B29b -B34b +B35b +Bcut * end of barrel and forward pixels detectors * ------------------------------------------ * TIB and TID (bias 1) (1st layer separate for possible spectral scoring) R035 5 +B37 +B842 -B2 -B36 +Bcut R036 5 | +B39 +B842 -B2 -B38 +Bcut | +B41 +B842 -B2 -B40 +Bcut | +B43 +B842 -B2 -B42 +Bcut | +B43 +B844 -B843 -B36 +Bcut | +B43 +B846 -B845 -B36 +Bcut | +B43 +B848 -B847 -B36 +Bcut * TOB (1st and last layer separate for possible spectral scoring) R037 5 +B851 +B849 -B2 -B850 +Bcut R038 5 | +B853 +B849 -B2 -B852 +Bcut | +B855 +B849 -B2 -B854 +Bcut | +B857 +B849 -B2 -B856 +Bcut | +B859 +B849 -B2 -B858 +Bcut R039 5 +B861 +B849 -B2 -B860 +Bcut * TEC (last layer separate for possible spectral scoring R040 5 | +B861 +B866 -B865 -B36 +Bcut | +B861 +B868 -B867 -B36 +Bcut | +B861 +B870 -B869 -B36 +Bcut | +B861 +B872 -B871 -B862 +Bcut | +B861 +B874 -B873 -B862 +Bcut | +B861 +B876 -B875 -B862 +Bcut | +B861 +B878 -B877 -B862 +Bcut | +B861 +B880 -B879 -B862 +Bcut R041 5 +B861 +B882 -B881 -B862 +Bcut * *** support tubes (bias 1) * *** Insulating Foam R042 5 +B45 +B55 -B2 -B44 +Bcut * *** support structure etc (carbon fibre) R043 5 +B48 +B55 -B2 -B45 +Bcut * **** BARREL * air at the ends and in front R044 5 | +B51 -B71 -B2 +B55 -B50 +Bcut | +B72 +B71 +B55 -B2 -B48 +Bcut * barrel moderator 0+3 option R045 5 +B72 -B71 -B2 +B55 -B51 +Bcut * Aluminium to represent cables & pipes * R046 5 +B50 -B71 -B2 +B55 -B48 +Bcut * **** FORWARD PRESHOWER * Air R047 5 | +B52 +B57 -B56 -B46a +Bcut | +B52 +B61a -B61 -B46 +Bcut | +B52 +B62 -B61c -B46 +Bcut | +B52 +B66a -B66 -B46 +Bcut | +B52 +B69 -B68 -B46 +Bcut | +B46 +B69 -B64 -B46a +Bcut | +B46 +B62 -B59 -B46a +Bcut | +B46b +B69 -B56 -B46c +Bcut * cooling screen R048 5 +B52 +B57a -B57 -B46 +Bcut * Al R048a 5 +B52 +B58 -B57a -B46 +Bcut * Pb R049 5 +B52 +B59 -B58 -B46 +Bcut * Al R050 5 +B52 +B60 -B59 -B46 +Bcut * Si R051 5 +B52 +B61 -B60 -B46 +Bcut * Al R051a 5 +B52 +B61b -B61a -B46 +Bcut * G10 R051b 5 +B52 +B61c -B61b -B46 +Bcut * cooling screen R053 5 +B52 +B62a -B62 -B46 +Bcut * Al R053a 5 +B52 +B63 -B62a -B46 +Bcut * Pb R054 5 +B52 +B64 -B63 -B46 +Bcut * Al R055 5 +B52 +B65 -B64 -B46 +Bcut * Si R056 5 +B52 +B66 -B65 -B46 +Bcut * Al R057 5 +B52 +B67 -B66a -B46 +Bcut * G10 R057a 5 +B52 +B68 -B67 -B46 +Bcut * moderator 4+4 option deleted | +B46 +B63 -B56 -B788 +Bcut R058 5 | +B52 +B676 -B69 -B46b +Bcut | +B52 +B56 -B55 -B46b +Bcut | +B46a -B46b +B57 -B56 | +B46a -B46b +B62 -B59 | +B46a -B46b +B69 -B64 * Preshower support structure R058a 5 | +B56 +B46b -B46c -B55 | +B676 +B46b -B46c -B69 | +B676 +B46c -B46d -B55 R058b 5 | +B59 +B46 -B57 -B46b | +B64 +B46 -B62 -B46b * **** ECAL * air in crack region and around barrel R059 5 | +B667 -B52a +B74a -B55a | +B71 -B72 +B55 -B52a | +B55a -B55 +B71 -B52a | +B667 +B75 -B595 -B71 -B540 -B74 +Bcut +B71a * **** ECAL sm new avg material R059a 5 | +B667 -B594 +B595 -B2 | +B667 -B540 -B595 +B55a -B71 R059b 5 | +B52a +B74 -B55 -B52 | +B74 -B74a +B667 -B52a | +B52a -B72 +B55 | +B75 -B74 +B667 -B71a | +B667 -B75 -B71a +B674 * barrel ECAL R060 5 | +B73 -B71 -B595 -B72 +Bcut | +B593 +B595 -B2 -B72 +Bcut * forward ECAL R061 5 +B71 +B75 -B74 -B788 +Bcut * moderators behind EF R062 5 | +B678 +B77 -B76 -B345 +Bcut | +B345 +B886 -B674 -B78 +Bcut | +B455 +B677 -B76 -B678 +Bcut | +B345 +B118 -B886 -B885 +Bcut * air behind EF R063 5 | +B667 +B76 -B674 -B345 +Bcut | +B667 +B116 -B76 -B455 +Bcut | +B807 +B675 -B116 -B455 +Bcut | +B667 +B674 -B75 -B71 +Bcut +B71a | +B455 +B77 -B677 -B678 +Bcut * **** Air in FW cone R064a 5 | +B78 +B1036 -B519 -B20 +Bcut | +B1035 -B20 +B1048 -B1036 | +B78 +B518 -B118 -B20 +Bcut | +B884 +B118 -B56 -B20 +Bcut | +B46d +B63 -B56 -B884 +Bcut | +B78 +B519 -B518 -B517 +Bcut R064b 5 | +B1035 -B11 +B1050 -B1049 | +B1035b -B1035 +B1038 -B1037 | +B1035a -B1035b -B1037 +B1037a | +B1035a -B1035b -B1037c +B1038 R064c 5 | +B1035 -B11 +B1052 -B1051 | +B1035b -B1035 +B1040 -B1039 | +B1035a -B1035b +B1039a -B1039 | +B1035a -B1035b +B1040 -B1039d R064d 5 | +B1035 -B11 +B1054 -B1053 | +B1035b -B1035 +B1042 -B1041 | +B1035a -B1035b +B1041a -B1041 | +B1035a -B1035b +B1042 -B1041b R064e 5 | +B1035 -B11 +B1056 -B1055 | +B1035b -B1035 +B1044 -B1043 | +B1035a -B1035b +B1043a -B1043 | +B1035a -B1035b +B1044 -B1043c R064f 5 | +B1035 -B11 +B1058 -B1057 | +B1035a -B1035 +B1046 -B1045 R064g 5 | +B78 +B183 -B1004 -B480 +Bcut | +B999 +B1004 -B480 -B1003 +Bcut | +B78 +B1003 -B480 -B19 +Bcut | +B78 +B19 -B924 -B13 +Bcut | +B78 +B924 -B925 -B923 +Bcut | +B78 +B925 -B1047 -B13 +Bcut | +B1035 +B925 -B18 -B13 +Bcut | +B1035 -B11 +B18 -B1059 * R064g 5 | +B78 +B183 -B19 -B480 +Bcut -( +B1002 -B999 +B1004 -B1003 ) * | +B78 +B19 -B924 -B13 +Bcut * | +B78 +B924 -B925 -B923 +Bcut * | +B78 +B925 -B1047 -B13 +Bcut * | +B1035 +B925 -B18 -B13 +Bcut * | +B1035 -B11 +B18 -B1059 * **** Air in front of VFCAL (below and above r=100) * below eta=3 (bias 1) R065 5 +B78 +B185 -B184 -B565 +Bcut * above eta=3 (bias 8) R066 5 +B430 +B185 -B184 -B78 +Bcut * around the VFCAL (bias 64) R067 5 | +B430 +B436 -B185 -B182 +Bcut | +B431 +B745 +B436 -B189 -B430 +Bcut * **** HCAL * barrel scintillators layers 1-4 R068 5 | +B83 +B589 -B79 -B2 -B82 +Bcut | +B85 +B589 -B79 -B2 -B84 +Bcut | +B87 +B589 -B79 -B2 -B86 +Bcut | +B89 +B589 -B79 -B2 -B88 +Bcut | +B668 +B672 -B2 -B667 +Bcut | +B670 +B672 -B2 -B669 +Bcut | +B81 +B672 -B2 -B671 +Bcut * layers 5-8 R069 5 | +B91 +B589 -B79 -B2 -B90 +Bcut | +B93 +B589 -B79 -B2 -B92 +Bcut | +B95 +B589 -B79 -B2 -B94 +Bcut | +B97 +B589 -B79 -B2 -B96 +Bcut * layers 9-11 R070 5 | +B99 +B589 -B79 -B2 -B98 +Bcut | +B101 +B589 -B79 -B2 -B100 +Bcut | +B103 +B589 -B79 -B2 -B102 +Bcut | +B105 +B589 -B79 -B2 -B104 +Bcut * layers 12-14 R071 5 | +B107 +B589 -B79 -B2 -B106 +Bcut | +B109 +B589 -B79 -B2 -B108 +Bcut | +B111 +B590 -B2 -B110 +Bcut | +B113 +B590 -B2 -B112 +Bcut | +B115 +B589 -B79 -B2 -B114 +Bcut * barrel absorber layers 1-3 * layer 1-2 steel, layer 3-5 copper R072 5 | +B669 +B672 -B2 -B668 +Bcut | +B671 +B672 -B2 -B670 +Bcut R073 5 | +B82 +B589 -B79 -B2 -B81 +Bcut | +B84 +B589 -B79 -B2 -B83 +Bcut | +B86 +B589 -B79 -B2 -B85 +Bcut | +B88 +B589 -B79 -B2 -B87 +Bcut | +B90 +B589 -B79 -B2 -B89 +Bcut * layers 6-9 copper R074 5 | +B92 -B79 +B589 -B2 -B91 +Bcut | +B94 -B79 +B589 -B2 -B93 +Bcut | +B96 +B589 -B79 -B2 -B95 +Bcut | +B98 -B79 +B589 -B2 -B97 +Bcut * layers 10-13 copper R075 5 | +B100 +B589 -B79 -B2 -B99 +Bcut | +B102 +B589 -B79 -B2 -B101 +Bcut | +B104 +B589 -B79 -B2 -B103 +Bcut | +B106 +B589 -B79 -B2 -B105 +Bcut * layers 14-16 copper, layer 17 steel R076 5 | +B108 +B589 -B79 -B2 -B107 +Bcut | +B110 +B590 -B2 -B109 +Bcut | +B112 +B590 -B2 -B111 +Bcut R077 5 +B114 +B589 -B79 -B2 -B113 +Bcut * endcap scintilator layers (bias 4) * layer 1 R078 5 | +B80 +B117 -B116 -B807 +Bcut | +B80 +B119 -B118 -B78 +Bcut | +B80 +B121 -B120 -B78 +Bcut | +B80 +B123 -B122 -B78 +Bcut | +B80 +B125 -B124 -B78 +Bcut | +B80 +B127 -B126 -B78 +Bcut * layer 2, lowest sector (bias 8) R079 5 | +B887 +B129 -B128 -B78 +Bcut | +B887 +B131 -B130 -B78 +Bcut | +B887 +B133 -B132 -B78 +Bcut | +B887 +B135 -B134 -B78 +Bcut | +B887 +B137 -B136 -B78 +Bcut | +B887 +B139 -B138 -B78 +Bcut * layer 3, lowest sector (bias 16) R080 5 | +B887 +B141 -B140 -B78 +Bcut | +B887 +B143 -B142 -B78 +Bcut | +B887 +B577 -B144 -B78 +Bcut | +B887 +B579 -B578 -B78 +Bcut | +B887 +B581 -B580 -B78 +Bcut | +B887 +B583 -B582 -B78 +Bcut | +B887 +B585 -B584 -B78 +Bcut | +B887 +B587 -B586 -B78 +Bcut * layer 2, upper sector (bias 32) R081 5 | +B80 +B129 -B128 -B887 +Bcut | +B80 +B172 +B131 -B130 -B887 +Bcut | +B172 +B133 -B132 -B887 +Bcut | +B172 +B135 -B134 -B887 +Bcut | +B172 +B137 -B136 -B887 +Bcut | +B172 +B139 -B138 -B887 +Bcut * layer 3, middle section (bias 64) R082 5 | +B432 +B141 -B140 -B887 +Bcut | +B432 +B143 -B142 -B887 +Bcut | +B432 +B577 -B144 -B887 +Bcut | +B432 +B579 -B578 -B887 +Bcut | +B432 +B581 -B580 -B887 +Bcut | +B432 +B583 -B582 -B887 +Bcut | +B432 +B585 -B584 -B887 +Bcut | +B432 +B587 -B586 -B887 +Bcut * layer 3, upper section (bias 256) R083 5 | +B172 +B141 -B140 -B432 +Bcut | +B172 +B143 -B142 -B432 +Bcut | +B172 +B577 -B144 -B432 +Bcut | +B172 +B579 -B578 -B432 +Bcut | +B90 +B581 -B580 -B432 +Bcut | +B90 +B583 -B582 -B432 +Bcut | +B90 +B585 -B584 -B432 +Bcut | +B90 +B587 -B586 -B432 +Bcut * layer 4, upper corner (bias 512) R084 5 | +B591 +B581 -B580 -B90 +Bcut | +B591 +B583 -B582 -B90 +Bcut | +B591 +B585 -B584 -B90 +Bcut | +B591 +B587 -B586 -B90 +Bcut * Air behind last HE scintillator R085 5 +B887 +B588 -B587 -B78 +Bcut R086 5 +B432 +B588 -B587 -B887 +Bcut R087 5 +B90 +B588 -B587 -B432 +Bcut R088 5 +B172 +B588 -B587 -B90 +Bcut * *** COIL * Air between HB and vac-tank R089 5 +B149 +B148 -B2 -B115 +Bcut * air at end and above vac-tank R090 5 | +B552 +B148 -B147 -B149 +Bcut | +B552 +B147 -B158 -B155 +Bcut * vac-tank lower steel R091 5 +B150 +B146 -B2 -B149 +Bcut * vac-tank end and upper steel R092 5 | +B155 +B147 -B146 -B149 +Bcut | +B155 +B146 -B2 -B154 +Bcut | +B154 +B156 -B2 -B153 +Bcut * vac-tank vacuum lower R093 5 +B151 +B145 -B2 -B150 +Bcut * vac-tank vacuum end and upper R094 5 | +B154 +B146 -B145 -B150 +Bcut | +B153 +B145 -B2 -B152 +Bcut | +B154 +B145 -B156 -B153 +Bcut * coil R095 5 +B152 +B145 -B2 -B151 +Bcut * *** TAIL CATCHER R096 5 +B157 +B158 -B2 -B155 +Bcut * *** BARREL YOKE (alternating iron of yoke and air of gaps) * RB1 first layer * iron R097 5 | +B488 +B148 -B161 -B501 +Bcut | +B488 +B160 -B159 -B501 +Bcut | +B488 +B158 -B2 -B501 +Bcut * air R098 5 | +B488 +B161 -B160 -B162 +Bcut | +B488 +B159 -B158 -B162 +Bcut * RB1 second layer R099 5 | +B502 +B148 -B161 -B488 +Bcut | +B502 +B160 -B159 -B488 +Bcut | +B502 +B158 -B2 -B488 +Bcut R100 5 | +B163 +B161 -B160 -B488 +Bcut | +B163 +B159 -B158 -B488 +Bcut * RB2 first layer R101 5 | +B489 +B148 -B161 -B503 +Bcut | +B489 +B160 -B159 -B503 +Bcut | +B489 +B158 -B2 -B503 +Bcut R102 5 | +B489 +B161 -B160 -B164 +Bcut | +B489 +B159 -B158 -B164 +Bcut * RB2 second layer R103 5 | +B490 +B148 -B161 -B489 +Bcut | +B490 +B160 -B159 -B489 +Bcut | +B490 +B158 -B2 -B489 +Bcut R104 5 | +B490 +B161 -B160 -B489 +Bcut | +B490 +B159 -B158 -B489 +Bcut * RB2 third layer R105 5 | +B504 +B148 -B161 -B490 +Bcut | +B504 +B160 -B159 -B490 +Bcut | +B504 +B158 -B2 -B490 +Bcut R106 5 | +B165 +B161 -B160 -B490 +Bcut | +B165 +B159 -B158 -B490 +Bcut * RB3 first layer R107 5 | +B491 +B148 -B161 -B505 +Bcut | +B491 +B160 -B159 -B505 +Bcut | +B491 +B158 -B2 -B505 +Bcut R108 5 | +B491 +B161 -B160 -B166 +Bcut | +B491 +B159 -B158 -B166 +Bcut * RB3 second layer R109 5 | +B492 +B148 -B161 -B491 +Bcut | +B492 +B160 -B159 -B491 +Bcut | +B492 +B158 -B2 -B491 +Bcut R110 5 | +B492 +B161 -B160 -B491 +Bcut | +B492 +B159 -B158 -B491 +Bcut * RB3 third layer R111 5 | +B506 +B148 -B161 -B492 +Bcut | +B506 +B160 -B159 -B492 +Bcut | +B506 +B158 -B2 -B492 +Bcut R112 5 | +B167 +B161 -B160 -B492 +Bcut | +B167 +B159 -B158 -B492 +Bcut * **** BARREL CHAMBERS * **** MB1 * Air around R113 5 | +B191 +B148 -B2 -B157 +Bcut | +B162 +B148 -B2 -B524 +Bcut * Aluminium in the chamber layers R114 5 | +B192 +B148 -B2 -B191 +Bcut | +B194 +B148 -B2 -B193 +Bcut | +B196 +B148 -B2 -B195 +Bcut | +B198 +B148 -B2 -B197 +Bcut | +B200 +B148 -B2 -B199 +Bcut | +B202 +B148 -B2 -B201 +Bcut | +B204 +B148 -B2 -B203 +Bcut | +B206 +B148 -B2 -B205 +Bcut | +B208 +B148 -B2 -B207 +Bcut | +B211 +B148 -B2 -B210 +Bcut | +B213 +B148 -B2 -B212 +Bcut | +B215 +B148 -B2 -B214 +Bcut | +B217 +B148 -B2 -B216 +Bcut * gas gaps R115 5 | +B193 +B148 -B2 -B192 +Bcut | +B195 +B148 -B2 -B194 +Bcut | +B197 +B148 -B2 -B196 +Bcut | +B199 +B148 -B2 -B198 +Bcut | +B201 +B148 -B2 -B200 +Bcut | +B203 +B148 -B2 -B202 +Bcut | +B205 +B148 -B2 -B204 +Bcut | +B207 +B148 -B2 -B206 +Bcut | +B210 +B148 -B2 -B209 +Bcut | +B212 +B148 -B2 -B211 +Bcut | +B214 +B148 -B2 -B213 +Bcut | +B216 +B148 -B2 -B215 +Bcut * honeycomb plate R116 5 +B209 +B148 -B2 -B208 +Bcut * **** MB2 * Air around R117 5 | +B218 +B148 -B2 -B163 +Bcut | +B164 +B148 -B2 -B529 +Bcut * Aluminium in the chamber layers R118 5 | +B219 +B148 -B2 -B218 +Bcut | +B221 +B148 -B2 -B220 +Bcut | +B223 +B148 -B2 -B222 +Bcut | +B225 +B148 -B2 -B224 +Bcut | +B227 +B148 -B2 -B226 +Bcut | +B229 +B148 -B2 -B228 +Bcut | +B231 +B148 -B2 -B230 +Bcut | +B233 +B148 -B2 -B232 +Bcut | +B235 +B148 -B2 -B234 +Bcut | +B238 +B148 -B2 -B237 +Bcut | +B240 +B148 -B2 -B239 +Bcut | +B242 +B148 -B2 -B241 +Bcut | +B244 +B148 -B2 -B243 +Bcut * gas gaps R119 5 | +B220 +B148 -B2 -B219 +Bcut | +B222 +B148 -B2 -B221 +Bcut | +B224 +B148 -B2 -B223 +Bcut | +B226 +B148 -B2 -B225 +Bcut | +B228 +B148 -B2 -B227 +Bcut | +B230 +B148 -B2 -B229 +Bcut | +B232 +B148 -B2 -B231 +Bcut | +B234 +B148 -B2 -B233 +Bcut | +B237 +B148 -B2 -B236 +Bcut | +B239 +B148 -B2 -B238 +Bcut | +B241 +B148 -B2 -B240 +Bcut | +B243 +B148 -B2 -B242 +Bcut * honeycomb plate R120 5 +B236 +B148 -B2 -B235 +Bcut * **** MB3 * Air around R121 5 | +B245 +B148 -B2 -B165 +Bcut | +B166 +B148 -B2 -B534 +Bcut * Aluminium in the chamber layers R122 5 | +B246 +B148 -B2 -B245 +Bcut | +B248 +B148 -B2 -B247 +Bcut | +B250 +B148 -B2 -B249 +Bcut | +B252 +B148 -B2 -B251 +Bcut | +B254 +B148 -B2 -B253 +Bcut | +B256 +B148 -B2 -B255 +Bcut | +B258 +B148 -B2 -B257 +Bcut | +B260 +B148 -B2 -B259 +Bcut | +B262 +B148 -B2 -B261 +Bcut | +B265 +B148 -B2 -B264 +Bcut | +B267 +B148 -B2 -B266 +Bcut | +B269 +B148 -B2 -B268 +Bcut | +B271 +B148 -B2 -B270 +Bcut * gas gaps R123 5 | +B247 +B148 -B2 -B246 +Bcut | +B249 +B148 -B2 -B248 +Bcut | +B251 +B148 -B2 -B250 +Bcut | +B253 +B148 -B2 -B252 +Bcut | +B255 +B148 -B2 -B254 +Bcut | +B257 +B148 -B2 -B256 +Bcut | +B259 +B148 -B2 -B258 +Bcut | +B261 +B148 -B2 -B260 +Bcut | +B264 +B148 -B2 -B263 +Bcut | +B266 +B148 -B2 -B265 +Bcut | +B268 +B148 -B2 -B267 +Bcut | +B270 +B148 -B2 -B269 +Bcut * honeycomb plate R124 5 +B263 +B148 -B2 -B262 +Bcut * **** MB4 * Air around R125 5 | +B272 +B148 -B2 -B167 +Bcut * Aluminium in the chamber layers R126 5 | +B273 +B148 -B2 -B272 +Bcut | +B275 +B148 -B2 -B274 +Bcut | +B277 +B148 -B2 -B276 +Bcut | +B279 +B148 -B2 -B278 +Bcut | +B281 +B148 -B2 -B280 +Bcut | +B283 +B148 -B2 -B282 +Bcut | +B285 +B148 -B2 -B284 +Bcut | +B287 +B148 -B2 -B286 +Bcut | +B289 +B148 -B2 -B288 +Bcut | +B292 +B148 -B2 -B291 +Bcut | +B294 +B148 -B2 -B293 +Bcut | +B296 +B148 -B2 -B295 +Bcut | +B298 +B148 -B2 -B297 +Bcut * gas gaps R127 5 | +B274 +B148 -B2 -B273 +Bcut | +B276 +B148 -B2 -B275 +Bcut | +B278 +B148 -B2 -B277 +Bcut | +B280 +B148 -B2 -B279 +Bcut | +B282 +B148 -B2 -B281 +Bcut | +B284 +B148 -B2 -B283 +Bcut | +B286 +B148 -B2 -B285 +Bcut | +B288 +B148 -B2 -B287 +Bcut | +B291 +B148 -B2 -B290 +Bcut | +B293 +B148 -B2 -B292 +Bcut | +B295 +B148 -B2 -B294 +Bcut | +B297 +B148 -B2 -B296 +Bcut * honeycomb plate R128 5 +B290 +B148 -B2 -B289 +Bcut * **** FORWARD YOKE * ** Area below chambers * * ME1 * Joint (steel) R129 5 +B321 +B168 -B589 -B320 +Bcut * free space 1 (steel) R130 5 +B322 +B168 -B589 -B321 +Bcut * free space 2 (borated PE) Now also around chambers R131 5 | +B833 +B168 -B755 -B322 +Bcut | +B833 +B754 -B589 -B322 +Bcut | +B323 +B168 -B755 -B832 +Bcut | +B323 +B754 -B589 -B832 +Bcut | +B784 +B834 -B589 -B559 +Bcut | +B172 +B168 -B835 -B559 +Bcut * clearance below chamber R132 5 | +B324 +B544 -B755 -B559 +Bcut | +B324 +B754 -B543 -B559 +Bcut * * ME2 * Joint (iron) R133 5 +B367 +B174 -B173 -B366 +Bcut * free space 1 (iron) R134 5 +B368 +B174 -B173 -B367 +Bcut * free space 2 (borated PE) Now also around chambers R135 5 | +B369 +B174 -B173 -B826 +Bcut | +B827 +B174 -B173 -B368 +Bcut | +B542 +B808 -B173 -B560 +Bcut | +B542 +B174 -B809 -B560 +Bcut * clearance below chamber R136 5 +B370 +B546 -B545 -B560 +Bcut * * ME3 * Joint (iron) R137 5 +B392 +B176 -B175 -B391 +Bcut * free space 1 (iron) R138 5 +B393 +B176 -B175 -B392 +Bcut * free space 2 (borated PE) Now also around chambers R139 5 | +B394 +B176 -B175 -B828 +Bcut | +B829 +B176 -B175 -B393 +Bcut | +B542 +B810 -B175 -B561 +Bcut | +B542 +B176 -B811 -B561 +Bcut * clearance below chamber R140 5 +B395 +B548 -B547 -B561 +Bcut * * ME4 * Joint (iron) R141 5 +B417 +B428 -B177 -B416 +Bcut * free space 1 (iron) R142 5 +B418 +B428 -B177 -B417 +Bcut * free space 2 (borated PE) Now also around chambers R143 5 | +B419 +B427 -B177 -B830 +Bcut | +B831 +B427 -B177 -B418 +Bcut | +B542 +B812 -B177 -B562 +Bcut | +B542 +B427 -B813 -B562 +Bcut * clearance below chamber R144 5 +B420 +B550 -B549 -B562 +Bcut * *** massless gap (scintillator) R145 5 +B172 +B170 -B169 -B322 +Bcut * *** Nose 1 * lowest part (67-79cm) (includes part below massless gap) R146 5 | +B321 +B169 -B168 -B320 +Bcut | +B322 +B170 -B169 -B320 +Bcut * next part (79-95.5cm) R147 5 +B323 +B169 -B168 -B321 +Bcut * rest of it R148 5 +B172 +B169 -B507 -B323 +Bcut * * Nose 2 * lowest part (80-107.5cm) R149 5 +B366 +B171 -B170 -B496 +Bcut * next part (107.5-129cm) R150 5 +B369 +B171 -B170 -B366 +Bcut * rest of it R151 5 +B172 +B171 -B170 -B369 +Bcut * * RF1 * lowest part (80-95.5) R152 5 +B323 +B173 -B171 -B496 +Bcut * second part (95.5-107.5) R153 5 +B367 +B173 -B171 -B323 +Bcut * third part (107.5-129.1) R154 5 +B369 +B173 -B171 -B367 +Bcut * third part (129.1-345) R155 5 +B172 +B509 -B171 -B369 +Bcut * rest of it R156 5 +B498 +B509 -B508 -B172 +Bcut * * RF2 * lowest part (92.5-107.5) R157 5 +B324 +B175 -B174 -B366 +Bcut * second part (107.5-129) R158 5 +B369 +B175 -B174 -B324 +Bcut * third part (129-151.5) R159 5 +B394 +B175 -B510 -B369 +Bcut * fourth part (151.5-345) R160 5 +B497 +B511 -B510 -B394 +Bcut * rest of it R161 5 +B498 +B511 -B510 -B497 +Bcut * * RF3 * lowest part (105-120) R162 5 +B394 +B177 -B176 -B391 +Bcut * second part (120-151) R163 5 +B419 +B177 -B512 -B394 +Bcut * third part (151-345) R164 5 +B497 +B513 -B512 -B419 +Bcut * rest of it R165 5 +B498 +B513 -B512 -B497 +Bcut * *** filling up to eta=3 (steel) * below MF1 R166 5 +B320 +B168 -B589 -B78 +Bcut * below Nose 1 R167 5 +B320 +B170 -B168 -B78 +Bcut * below Nose 2 and RF1 R168 5 +B496 +B173 -B170 -B78 +Bcut * below MF2 R169 5 +B366 +B174 -B173 -B78 +Bcut * below RF2 R170 5 +B366 +B175 -B174 -B78 +Bcut * below MF3 R171 5 +B391 +B176 -B175 -B78 +Bcut * below RF3 R172 5 +B391 +B177 -B176 -B78 +Bcut * below MF4 R173 5 +B416 +B428 -B177 -B78 +Bcut * *** FORWRAD CHAMBERS * * MF1 * Air around and between RPC and CSC R174 5 | +B172 +B299 -B589 -B784 +Bcut | +B172 +B543 -B304 -B784 +Bcut | +B172 +B305 -B543 -B324 +Bcut | +B172 +B544 -B783 -B324 +Bcut | +B172 +B754 -B610 -B324 +Bcut | +B172 +B756 -B755 -B324 +Bcut * bakelite of RPC:s R175 5 | +B172 +B300 -B299 -B784 +Bcut | +B172 +B302 -B301 -B784 +Bcut | +B172 +B304 -B303 -B784 +Bcut * gas of RPC:s R176 5 | +B172 +B301 -B300 -B784 +Bcut | +B172 +B303 -B302 -B784 +Bcut * honeycomb planes R177 5 | +B172 +B307 -B306 -B324 +Bcut | +B172 +B311 -B310 -B324 +Bcut | +B172 +B315 -B314 -B324 +Bcut | +B172 +B597 -B318 -B324 +Bcut | +B172 +B601 -B600 -B324 +Bcut | +B172 +B605 -B604 -B324 +Bcut | +B172 +B609 -B608 -B324 +Bcut | +B172 +B758 -B757 -B324 +Bcut | +B172 +B762 -B761 -B324 +Bcut | +B172 +B766 -B765 -B324 +Bcut | +B172 +B770 -B769 -B324 +Bcut | +B172 +B774 -B773 -B324 +Bcut | +B172 +B778 -B777 -B324 +Bcut | +B172 +B782 -B781 -B324 +Bcut * CSC gas gaps R178 5 | +B172 +B309 -B308 -B324 +Bcut | +B172 +B313 -B312 -B324 +Bcut | +B172 +B317 -B316 -B324 +Bcut | +B172 +B599 -B598 -B324 +Bcut | +B172 +B603 -B602 -B324 +Bcut | +B172 +B607 -B606 -B324 +Bcut | +B172 +B760 -B759 -B324 +Bcut | +B172 +B764 -B763 -B324 +Bcut | +B172 +B768 -B767 -B324 +Bcut | +B172 +B772 -B771 -B324 +Bcut | +B172 +B776 -B775 -B324 +Bcut | +B172 +B780 -B779 -B324 +Bcut * * MF1A (or MF1/2) * Air around and between RPC and CSC (and at radii of RB1) R179 5 | +B163 +B171 -B551 -B162 +Bcut | +B162 +B171 -B624 -B172 +Bcut | +B162 +B325 -B551 -B172 +Bcut | +B162 +B331 -B330 -B172 +Bcut * bakelite of RPC:s R180 5 | +B162 +B326 -B325 -B172 +Bcut | +B162 +B328 -B327 -B172 +Bcut | +B162 +B330 -B329 -B172 +Bcut * gas of RPC:s R181 5 | +B162 +B327 -B326 -B172 +Bcut | +B162 +B329 -B328 -B172 +Bcut * honeycomb of CSC:s R182 5 | +B162 +B333 -B332 -B172 +Bcut | +B162 +B337 -B336 -B172 +Bcut | +B162 +B341 -B340 -B172 +Bcut | +B162 +B611 -B344 -B172 +Bcut | +B162 +B615 -B614 -B172 +Bcut | +B162 +B619 -B618 -B172 +Bcut | +B162 +B623 -B622 -B172 +Bcut * CSC gas gaps R183 5 | +B162 +B335 -B334 -B172 +Bcut | +B162 +B339 -B338 -B172 +Bcut | +B162 +B343 -B342 -B172 +Bcut | +B162 +B613 -B612 -B172 +Bcut | +B162 +B617 -B616 -B172 +Bcut | +B162 +B621 -B620 -B172 +Bcut * * MF1B (or MF1/3) * Air around and between RPC and CSC R184 5 | +B498 +B171 -B624 -B163 +Bcut | +B498 +B325 -B551 -B163 +Bcut | +B498 +B331 -B330 -B163 +Bcut * bakelite of RPC:s R185 5 | +B498 +B326 -B325 -B163 +Bcut | +B498 +B328 -B327 -B163 +Bcut | +B498 +B330 -B329 -B163 +Bcut * gas of RPC:s R186 5 | +B498 +B327 -B326 -B163 +Bcut | +B498 +B329 -B328 -B163 +Bcut * honeycomb of CSC:s R187 5 | +B498 +B333 -B332 -B163 +Bcut | +B498 +B337 -B336 -B163 +Bcut | +B498 +B341 -B340 -B163 +Bcut | +B498 +B611 -B344 -B163 +Bcut | +B498 +B615 -B614 -B163 +Bcut | +B498 +B619 -B618 -B163 +Bcut | +B498 +B623 -B622 -B163 +Bcut * CSC gas gaps R188 5 | +B498 +B335 -B334 -B163 +Bcut | +B498 +B339 -B338 -B163 +Bcut | +B498 +B343 -B342 -B163 +Bcut | +B498 +B613 -B612 -B163 +Bcut | +B498 +B617 -B616 -B163 +Bcut | +B498 +B621 -B620 -B163 +Bcut * * MF2 lower part * Air around and between RPC and CSC R189 5 | +B497 +B352 -B545 -B370 +Bcut | +B497 +B545 -B351 -B542 +Bcut | +B497 +B346 -B173 -B542 +Bcut | +B497 +B174 -B546 -B542 +Bcut | +B497 +B546 -B638 -B370 +Bcut | +B542 +B809 -B546 -B560 +Bcut * bakelite of RPC:s R190 5 | +B497 +B347 -B346 -B542 +Bcut | +B497 +B349 -B348 -B542 +Bcut | +B497 +B351 -B350 -B542 +Bcut * gas of RPC:s R191 5 | +B497 +B348 -B347 -B542 +Bcut | +B497 +B350 -B349 -B542 +Bcut * honeycomb of CSC:S R192 5 | +B497 +B354 -B353 -B370 +Bcut | +B497 +B358 -B357 -B370 +Bcut | +B497 +B362 -B361 -B370 +Bcut | +B497 +B625 -B365 -B370 +Bcut | +B497 +B629 -B628 -B370 +Bcut | +B497 +B633 -B632 -B370 +Bcut | +B497 +B637 -B636 -B370 +Bcut * CSC gas gaps R193 5 | +B497 +B356 -B355 -B370 +Bcut | +B497 +B360 -B359 -B370 +Bcut | +B497 +B364 -B363 -B370 +Bcut | +B497 +B627 -B626 -B370 +Bcut | +B497 +B631 -B630 -B370 +Bcut | +B497 +B635 -B634 -B370 +Bcut * * MF2 upper part * Air around and between RPC and CSC R194 5 | +B498 +B352 -B351 -B497 +Bcut | +B498 +B346 -B173 -B497 +Bcut | +B498 +B174 -B638 -B497 +Bcut * bakelite of RPC:s R195 5 | +B498 +B347 -B346 -B497 +Bcut | +B498 +B349 -B348 -B497 +Bcut | +B498 +B351 -B350 -B497 +Bcut * gas of RPC:s R196 5 | +B498 +B348 -B347 -B497 +Bcut | +B498 +B350 -B349 -B497 +Bcut * honeycomb of CSC:S R197 5 | +B498 +B354 -B353 -B497 +Bcut | +B498 +B358 -B357 -B497 +Bcut | +B498 +B362 -B361 -B497 +Bcut | +B498 +B625 -B365 -B497 +Bcut | +B498 +B629 -B628 -B497 +Bcut | +B498 +B633 -B632 -B497 +Bcut | +B498 +B637 -B636 -B497 +Bcut * CSC gas gaps R198 5 | +B498 +B356 -B355 -B497 +Bcut | +B498 +B360 -B359 -B497 +Bcut | +B498 +B364 -B363 -B497 +Bcut | +B498 +B627 -B626 -B497 +Bcut | +B498 +B631 -B630 -B497 +Bcut | +B498 +B635 -B634 -B497 +Bcut * * MF3 lower part * Air around and between RPC and CSC R199 5 | +B497 +B377 -B547 -B395 +Bcut | +B497 +B371 -B548 -B542 +Bcut | +B497 +B547 -B175 -B542 +Bcut | +B497 +B176 -B376 -B542 +Bcut | +B497 +B548 -B652 -B395 +Bcut | +B542 +B547 -B810 -B561 +Bcut * bakelite of RPC:s R200 5 | +B497 +B372 -B371 -B542 +Bcut | +B497 +B374 -B373 -B542 +Bcut | +B497 +B376 -B375 -B542 +Bcut * gas of RPC:s R201 5 | +B497 +B373 -B372 -B542 +Bcut | +B497 +B375 -B374 -B542 +Bcut * honeycomb of CSC:S R202 5 | +B497 +B379 -B378 -B395 +Bcut | +B497 +B383 -B382 -B395 +Bcut | +B497 +B387 -B386 -B395 +Bcut | +B497 +B639 -B390 -B395 +Bcut | +B497 +B643 -B642 -B395 +Bcut | +B497 +B647 -B646 -B395 +Bcut | +B497 +B651 -B650 -B395 +Bcut * CSC gas gaps R203 5 | +B497 +B381 -B380 -B395 +Bcut | +B497 +B385 -B384 -B395 +Bcut | +B497 +B389 -B388 -B395 +Bcut | +B497 +B641 -B640 -B395 +Bcut | +B497 +B645 -B644 -B395 +Bcut | +B497 +B649 -B648 -B395 +Bcut * * MF3 upper part * Air around and between RPC and CSC R204 5 | +B498 +B371 -B652 -B497 +Bcut | +B498 +B377 -B175 -B497 +Bcut | +B498 +B176 -B376 -B497 +Bcut * bakelite of RPC:s R205 5 | +B498 +B372 -B371 -B497 +Bcut | +B498 +B374 -B373 -B497 +Bcut | +B498 +B376 -B375 -B497 +Bcut * gas of RPC:s R206 5 | +B498 +B373 -B372 -B497 +Bcut | +B498 +B375 -B374 -B497 +Bcut * honeycomb of CSC:S R207 5 | +B498 +B379 -B378 -B497 +Bcut | +B498 +B383 -B382 -B497 +Bcut | +B498 +B387 -B386 -B497 +Bcut | +B498 +B639 -B390 -B497 +Bcut | +B498 +B643 -B642 -B497 +Bcut | +B498 +B647 -B646 -B497 +Bcut | +B498 +B651 -B650 -B497 +Bcut * CSC gas gaps R208 5 | +B498 +B381 -B380 -B497 +Bcut | +B498 +B385 -B384 -B497 +Bcut | +B498 +B389 -B388 -B497 +Bcut | +B498 +B641 -B640 -B497 +Bcut | +B498 +B645 -B644 -B497 +Bcut | +B498 +B649 -B648 -B497 +Bcut * * MF4 Lower part * Air around and between RPC and CSC R209 5 | +B497 +B402 -B549 -B420 +Bcut | +B497 +B396 -B550 -B542 +Bcut | +B497 +B549 -B177 -B542 +Bcut | +B497 +B427 -B401 -B542 +Bcut | +B497 +B550 -B666 -B420 +Bcut | +B542 +B549 -B812 -B562 +Bcut * bakelite of RPC:s R210 5 | +B497 +B397 -B396 -B542 +Bcut | +B497 +B399 -B398 -B542 +Bcut | +B497 +B401 -B400 -B542 +Bcut * gas of RPC:s R211 5 | +B497 +B398 -B397 -B542 +Bcut | +B497 +B400 -B399 -B542 +Bcut * honeycomb of CSC:S R212 5 | +B497 +B404 -B403 -B420 +Bcut | +B497 +B408 -B407 -B420 +Bcut | +B497 +B412 -B411 -B420 +Bcut | +B497 +B653 -B415 -B420 +Bcut | +B497 +B657 -B656 -B420 +Bcut | +B497 +B661 -B660 -B420 +Bcut | +B497 +B665 -B664 -B420 +Bcut * CSC gas gaps R213 5 | +B497 +B406 -B405 -B420 +Bcut | +B497 +B410 -B409 -B420 +Bcut | +B497 +B414 -B413 -B420 +Bcut | +B497 +B655 -B654 -B420 +Bcut | +B497 +B659 -B658 -B420 +Bcut | +B497 +B663 -B662 -B420 +Bcut * * MF4 upper part * Air around and between RPC and CSC R214 5 | +B498 +B402 -B177 -B497 +Bcut | +B498 +B396 -B666 -B497 +Bcut | +B498 +B427 -B401 -B497 +Bcut * bakelite of RPC:s R215 5 | +B498 +B397 -B396 -B497 +Bcut | +B498 +B399 -B398 -B497 +Bcut | +B498 +B401 -B400 -B497 +Bcut * gas of RPC:s R216 5 | +B498 +B398 -B397 -B497 +Bcut | +B498 +B400 -B399 -B497 +Bcut * honeycomb of CSC:S R217 5 | +B498 +B404 -B403 -B497 +Bcut | +B498 +B408 -B407 -B497 +Bcut | +B498 +B412 -B411 -B497 +Bcut | +B498 +B653 -B415 -B497 +Bcut | +B498 +B657 -B656 -B497 +Bcut | +B498 +B661 -B660 -B497 +Bcut | +B498 +B665 -B664 -B497 +Bcut * CSC gas gaps R218 5 | +B498 +B406 -B405 -B497 +Bcut | +B498 +B410 -B409 -B497 +Bcut | +B498 +B414 -B413 -B497 +Bcut | +B498 +B655 -B654 -B497 +Bcut | +B498 +B659 -B658 -B497 +Bcut | +B498 +B663 -B662 -B497 +Bcut * *** MF4 WALL * Iron R219 5 +B498 +B428 -B427 -B418 +Bcut +B998 * *** MF4 WALL Temporary Air as long missing in reality * Iron R219a 5 +B498 +B428 -B427 -B418 +Bcut -B998 * PE piece (only up to R=2m) R220 5 +B435 +B429 -B428 -B418 +Bcut * *** VFCAL moderator R221 5 +B78 +B184 -B183 -B565 +Bcut * *** PE pieces between endcap and HF * from eta=3 up to lower of MF4 joint R222 5 +B417 +B429 -B428 -B78 +Bcut * agrees with MF4 joint R223 5 +B418 +B429 -B428 -B417 +Bcut * agrees with MF4 joint * this one is PE R224 5 +B431 +B567 -B1004 -B430 +Bcut | +B431 +B1004 -B1003 -B1002 +Bcut | +B431 +B1003 -B429 -B430 +Bcut * R224 5 +B431 +B567 -B429 -B430 +Bcut -( +B1002 -B999 +B1004 -B1003 ) * Parts of the endcap - HF interface R225 5 +B416 +B184 -B567 -B78 +Bcut R226 5 +B417 +B184 -B567 -B416 +Bcut R227 5 +B430 +B184 -B567 -B417 +Bcut * Air in the endcap-HF gap, lowest parts R228 5 +B417 +B567 -B78 -B1004 +Bcut | +B417 +B1003 -B78 -B429 +Bcut * R228 5 +B417 +B567 -B429 -B78 +Bcut -( +B1002 -B999 +B1004 -B1003 ) R229 5 +B430 +B567 -B417 -B1004 +Bcut | +B430 +B1003 -B417 -B429 +Bcut * R229 5 +B430 +B567 -B429 -B417 +Bcut -( +B1002 -B999 +B1004 -B1003 ) * *** HF lowest row (eta 5.5 to 20cm) * HF bulk (bias 1) R230 5 | +B179 +B188 -B185 -B565 +Bcut * TC1 (bias 2) R231 5 +B179 +B189 -B188 -B565 +Bcut * TC2 (bias 2) (air) R232 5 | +B179 +B190 -B921 -B565 +Bcut | +B179 +B190 -B189 -B919 +Bcut | +B179 +B920 -B189 -B565 +Bcut | +B922 +B921 -B920 -B565 +Bcut * *** HF second row (20-63cm) * HF bulk (bias 1,2,4) R233 5 +B180 +B186 -B185 -B179 +Bcut R234 5 +B180 +B187 -B186 -B179 +Bcut R235 5 +B180 +B188 -B187 -B179 +Bcut * HF TC1 (bias 8) R236 5 +B180 +B189 -B188 -B179 +Bcut * HF TC (bias 8) (air) R237 5 | +B180 +B190 -B189 -B179 +Bcut | +B180 +B436 -B190 -B179 -B569 +Bcut * *** HF third row (50-100cm) * HF bulk (bias 2,8,16) R238 5 +B181 +B186 -B185 -B180 +Bcut R239 5 +B181 +B187 -B186 -B180 +Bcut R240 5 +B181 +B188 -B187 -B180 +Bcut * HF TC1 (bias 32) R241 5 +B181 +B189 -B188 -B180 +Bcut * HF TC2 (bias 32) (air) R242 5 | +B181 +B190 -B189 -B180 +Bcut | +B181 +B436 -B190 -B180 -B569 +Bcut * *** HF uppermost row * HF bulk (bias 8,16,32) R243 5 +B182 +B186 -B185 -B181 +Bcut R244 5 +B182 +B187 -B186 -B181 +Bcut R245 5 +B182 +B188 -B187 -B181 +Bcut * HF TC1 (bias 64) R246 5 +B182 +B189 -B188 -B181 +Bcut * HF TC2 (bias 64) (air) R247 5 | +B182 +B190 -B189 -B181 +Bcut | +B182 +B436 -B190 -B181 -B569 +Bcut * First Iron to shield HF PMs R248 5 +B568 +B571 -B436 -B453 +Bcut * PE to shield HF PMs R249 5 +B568 +B572 -B571 -B576 +Bcut * Pb shield HF PMs R250 5 +B568 +B895 -B572 -B576 +Bcut * Glass plate to represent PMs (includes 2cm Al) R251 5 +B568 +B573 -B438 -B181 +Bcut * *** HF back shielding lowest row (eta=5.3 to 20cm) * cell 1-3 (bias 1) R252 5 +B179 +B439 -B436 -B178 +Bcut * cell 4-5 (bias 2) R253 5 +B179 +B441 -B439 -B178 +Bcut * *** HV back shielding, second row * cell 1-3 (bias 8) R254 5 | +B716 +B439 -B436 -B179 +Bcut | +B453 +B436 +B570 -B716 +Bcut * cell 4-5 (bias 16) R255 5 +B716 +B441 -B439 -B179 +Bcut * *** HV back shielding, third row * cell 1 (bias 32) R256 5 | +B453 +B437 -B571 -B716 +Bcut * cell 2-3 (bias 64) R257 5 +B453 +B439 -B437 -B716 +Bcut * cell 4-5 (bias 128) R258 5 +B453 +B441 -B439 -B716 +Bcut * *** HV back shielding, fourth row and above * top layer 1 (bias 64) (iron) R259 5 | +B431 +B189 -B567 -B430 +Bcut | +B431 +B436 -B189 -B430 -B745 +Bcut * top layer 2 (bias 128) (iron) R260 5 +B432 +B436 -B567 -B431 +Bcut * layer 3 back (bias 256) (steel) R261 5 +B319 +B439 -B436 -B568 +Bcut * top mgn-conc (bias 256) R262 5 | +B433 +B436 -B567 -B432 +Bcut | +B433 +B439 -B436 -B319 +Bcut * top mgn-conc (bias 512) R263 5 +B434 +B439 -B567 -B433 +Bcut * layer 4 (bias 512) (mgn-conc) * Back R264 5 +B434 +B440 -B439 -B568 +Bcut * layer 5 (bias 1024) * Top (PE) R265 5 +B435 +B441 -B567 -B434 +Bcut * Back (mgn-conc) R266 5 +B434 +B441 -B440 -B568 +Bcut * air layers in the gap * bias 512 R267 5 +B568 +B440 -B573 -B181 +Bcut * bias 1024 R268 5 +B568 +B441 -B440 -B181 +Bcut * *** lowest layer of iron around collimator (22-40cm) bias 2 R269 5 | +B463 +B720 -B719 -B742 -B740 -B739 -B735 -B737 +Bcut | +B742 +B720 -B719 -B718 -B740 -B739 -B735 +Bcut | +B463 +B719 -B736 -B450 +Bcut * *** second layer of iron around collimator (40-70 cm) bias 4 R270 5 | +B446 +B720 -B563 -B463 +B451 +Bcut -B735 -B737 -B738 -B740 +Bcut | +B446 -B463 +B451 +B738 +B741 -B740 +Bcut * *** third layer of iron around collimator (70-90 cm) bias 8 and door R271 5 | +B453 +B720 -B563 -B446 +B451 -B737 -B738 +Bcut | +B451 +B458 -B720 -B685 +Bcut | +B451 -B685 +B1030 -Bcut * *** rest of the iron around the collimator (bias 16) R272 5 +B451 +B720 -B563 -B453 -B737 -B738 +Bcut * * *** air gap between the iron and movable shield (bias 16) R273 5 | +B452 +B499 -B449 -B451 +Bcut | +B443 +B449 -B899a -B957 +Bcut | +B443 +B957a -B954 -B956a +Bcut | +B955 +B957a -B956a -B958 +Bcut | +B443 +B956 -B441 -B727 -suppleg1 -suppleg2 +Bcut | +B957a +B959 -B727 -B956a +Bcut * * *** THIN SHIELD (mostly iron) * lowest layer (bias 32) R274 5 | +B500 +B449 -B443 +Bcut | +B444 +B449 -B566a -B443 -B500 +Bcut * second layer (bias 64) R275 5 | +B445 +B449 +B469 -B500 -B444 +Bcut | +B445 +B449 -B566a -B444 -B469 +Bcut * third layer (bias 128) R276 5 | +B909 +B558 -B566a -B445 -B470 +Bcut * fourth layer (bias 256) R277 5 | +B910 +B558 -B566a -B909 -B470 +Bcut | +B453 +B558 -B910 +B471 -B470 +Bcut * fifth layer (bias 512) R278 5 +B917 +B558 -B566a -B910 -B471 +Bcut * polyeth on top (bias 1024) R279 5 +B918 +B448 -B566 -B472 -B917a +Bcut * *** Thick shield and joining cone (magnetite concrete) * inner layer 70-90cm, bias 64 R280 5 | +B453 +B564 -B558 -B679 +Bcut | +B469 +B453 +B558 -B679 -B449 +Bcut | +B469 +B449 -B445 -B500 +Bcut * second layer 90-110cm, bias 128 R281 5 | +B454 +B564 -B558 -B453 -B679 +Bcut | +B454 +B499 -B682 -B453 -B679 -B743 -B744 +Bcut | +B470 +B558 +B454 -B453 +Bcut | +B470 +B453 -B445 -B469 +Bcut * OR +470 +558 -454 * third layer 110-130cm, bias 256 R282 5 | +B455 +B499 -B682 -B454 -B679 +Bcut | +B455 +B564 -B558 -B454 -B679 +Bcut | +B471 +B558 +B455 -B454 -B453 +Bcut | +B471 +B558 +B454 -B453 -B470 +Bcut * fourth layer 130-140cm, bias 512 R283 5 | +B456 +B499 -B693 -B455 +Bcut | +B456 +B693 -B682 -B455 +Bcut | +B456 +B564 -B558 -B455 +Bcut | +B472 +B558 +B456 -B455 +Bcut | +B472 +B558 +B455 -B917 -B471 +Bcut * fifth layer 140-160cm, bias 1024 R284 5 | +B680 +B499 -B693 -B456 -B696 +Bcut | +B838 +B693 -B682 -B456 -B696 +Bcut | +B836a +B564 -B558 -B456 +Bcut | -B472 +B1006 +B486a -B486 | +B836a +B558 -B486a -B472 +Bcut | +B472 +B558 -B456 +Bcut | +B473a +B486 -B448 -B917 -B472 +Bcut * B-bolyethyl, bias 1024 R285 5 | +B839 +B693 -B889 -B838 -B696 -B744 +Bcut | +B839 +B889 -B888 -B890 -B696 +Bcut | +B891 +B888 -B564 -B890 -B743 -B696 +Bcut | +B891 +B564 -B840 -B837 -B696 +Bcut | +B837 +B564 -B486 -B836 +Bcut | +B837 +B486 -B841 -B555 +Bcut | +B555 +B486 -B448 -B473 +Bcut * *** Block house * inner layer 100-130 bias 16 R286 5 +B455 +B426 -B687 -B464 +Bcut * second layer 130-150 bias 32 R287 5 +B456 +B426 -B687 -B455 -B464 +Bcut * third layer 150-170cm bias 64 R288 5 +B457 +B426 -B687 -B456 -B464 +Bcut * fourth layer 170-200cm, bias 128 R289 5 +B465 +B426 -B687 -B457 +Bcut * fifth layer 200-230cm, bias 256 R290 5 +B466 +B426 -B687 -B465 +Bcut * sixth layer 230-250cm, bias 512 R291 5 +B467 +B425 -B687 -B466 +Bcut * top layer (bias 1204) R292 5 +B468 +B425 -B687 -B467 +Bcut * *** AIR AROUND THE FORWARD SHIELDING bias 1024 R293 5 +B421 +B424 -B687 -B714 -B1010 +Bcut | +B421 +B687 -B499 -B686 +B704 -B705 +Bcut | +B421 +B687 -B499 -B468 +B705 +Bcut | +B421 +B687 -B499 -B468 -B704 +Bcut | +B421 +B499 -B693 -B686 -B705 +B704 +Bcut | +B421 +B499 -B693 +B705 +Bcut | +B421 +B499 -B693 -B704 +Bcut | +B421 +B693 -B841 -B714 +Bcut | +B1009 +B693 -B888 -B839 +Bcut | +B888 +B1009 -B840 -B891 +Bcut | +B840 +B1009 -B841 -B837 +Bcut | +B721 +B841 -B448 -B555 -B714 +Bcut | +B721 +B448 -B574 -B714 +Bcut | +B448 +B1009 -B574 -B918 +Bcut | +B421 +B574 -B441 -B907 +Bcut | +B421 +B441 -B428 -B498 +Bcut | +B498 +B441 -B429 -B714 +Bcut | +B468 +B441 -B428 -B596 +Bcut -(x2hfrack -x1hfrack +y2hfrack-y1hfrack +z3hfrack -z1hfrack) | +B686 +B687 -B499 +B704 -B697 +Bcut | +B686 +B687 -B499 -B705 +B696 +Bcut | +B839 +B693 -B840 +B696 +Bcut | +B907 -B914 -B904 +B915 +Bcut | +B841 +B1009 -B448 -B555 * *** AIR AROUND the BARREL DETECTOR bias 2048 * just 2 first lines R294 5 | +B421 +B428 -B148 -B1008 +Bcut * *** surface layer of wall (bias 512) R295 5 | +B422 +B425 -B424 -B468 +Bcut -( +B987 -B990 ) | +B422 +B424 -B148 -B421 +Bcut -( +B987 -B990 ) * *** wall surface - central part, bias 1024 R296 5 +B422 +B148 -N426 -B421 +Bcut -( +B987 -B990 ) * *** bulk of walls (bias 64) R297 5 | +B423 +B426 -B425 -B466 +Bcut -( +B987 -B990 ) | +B423 +B425 -N426 -B422 +Bcut -( +B987 -B990 ) * *** Air in VFCAL, front 30cm (bias 1) R298 5 +B565 +B186 -B185 -B480 +Bcut * *** Air in block house * first layer (bias 2) R299 5 +B463 +B426 -B458 -B712 +Bcut * second layer (bias 8) R300 5 +B464 +B426 -B458 -B463 +Bcut * COLLIMATOR (bias 1) R301 5 +B717 +B475 -B474 -B476 +Bcut * Quad (bias 1) R302 5 +B478 +B426 -B477 -B482 +Bcut * **** surface layers for chambers * around MB1 R303 5 | +B501 +B148 -B161 -B162 +Bcut | +B501 +B160 -B159 -B162 +Bcut | +B501 +B158 -B2 -B162 +Bcut * around MB2 R304 5 | +B163 +B148 -B161 -B502 +Bcut | +B163 +B160 -B159 -B502 +Bcut | +B163 +B158 -B2 -B502 +Bcut R305 5 | +B503 +B148 -B161 -B164 +Bcut | +B503 +B160 -B159 -B164 +Bcut | +B503 +B158 -B2 -B164 +Bcut * around MB3 R306 5 | +B165 +B148 -B161 -B504 +Bcut | +B165 +B160 -B159 -B504 +Bcut | +B165 +B158 -B2 -B504 +Bcut R307 5 | +B505 +B148 -B161 -B166 +Bcut | +B505 +B160 -B159 -B166 +Bcut | +B505 +B158 -B2 -B166 +Bcut * around MB4 R308 5 | +B167 +B148 -B161 -B506 +Bcut | +B167 +B160 -B159 -B506 +Bcut | +B167 +B158 -B2 -B506 +Bcut * nose after MF1 * lower part R309 5 +B172 +B507 -B168 -B323 +Bcut * RF1 low z * from 270 to 695 R310 5 +B498 +B508 -B171 -B172 +Bcut * RF1 high z * third part (139.1-345) R311 5 +B497 +B173 -B509 -B369 +Bcut * rest of it R312 5 +B498 +B173 -B509 -B497 +Bcut * RF2 low z * fourth part (139-345) R313 5 +B497 +B510 -B174 -B369 +Bcut * rest of it R314 5 +B498 +B510 -B174 -B497 +Bcut * RF2 high z * fourth part (139-345) R315 5 +B497 +B175 -B511 -B394 +Bcut * rest of it R316 5 +B498 +B175 -B511 -B497 +Bcut * RF3 low z * third part (151-345) R317 5 +B497 +B512 -B176 -B394 +Bcut * rest of it R318 5 +B498 +B512 -B176 -B497 +Bcut * RF3 high z * third part (151-345) R319 5 +B497 +B177 -B513 -B419 +Bcut * rest of it R320 5 +B498 +B177 -B513 -B497 +Bcut * *** the pentaprism ring and its air surroundings R321 5 +B515 +B516 -B169 -B514 +Bcut R322 5 | +B517 +B519 -B518 -B515 +Bcut | +B515 +B519 -B516 -B514 +Bcut | +B515 +B169 -B518 -B514 +Bcut | +B514 +B519 -B518 -B20 +Bcut * *** Barrel RPC:s * for MB1 (first bakelite, then gas) R323 5 | +B520 +B148 -B2 -B217 +Bcut | +B522 +B148 -B2 -B521 +Bcut | +B524 +B148 -B2 -B523 +Bcut R324 5 | +B521 +B148 -B2 -B520 +Bcut | +B523 +B148 -B2 -B522 +Bcut * for MB2 (first bakelite, then gas) R325 5 | +B525 +B148 -B2 -B244 +Bcut | +B527 +B148 -B2 -B526 +Bcut | +B529 +B148 -B2 -B528 +Bcut R326 5 | +B526 +B148 -B2 -B525 +Bcut | +B528 +B148 -B2 -B527 +Bcut * for MB3 (first bakelite, then gas) R327 5 | +B530 +B148 -B2 -B271 +Bcut | +B532 +B148 -B2 -B531 +Bcut | +B534 +B148 -B2 -B533 +Bcut R328 5 | +B531 +B148 -B2 -B530 +Bcut | +B533 +B148 -B2 -B532 +Bcut * for MB4 (first bakelite, then gas) R329 5 | +B535 +B148 -B2 -B298 +Bcut | +B537 +B148 -B2 -B536 +Bcut | +B539 +B148 -B2 -B538 +Bcut R330 5 | +B536 +B148 -B2 -B535 +Bcut | +B538 +B148 -B2 -B537 +Bcut * barrel APD:s R331 5 | +B540 -B71 -B595 -B73 +B541 +Bcut | +B594 +B595 -B2 -B593 +Bcut * forward APD:s R332 5 +B71 +B541 -B75 -B788 +Bcut * cable bundles at end of barrel R333 5 +B157 +B551 -B148 -B172 +Bcut R334 5 +B498 +B551 -B148 -B157 +Bcut R335 5 +B157 +B148 -B158 -B552 +Bcut * lead below ME1 R336 5 | +B559 +B168 -B755 -B323 +Bcut | +B559 +B754 -B589 -B323 +Bcut | +B832 +B168 -B755 -B833 +Bcut | +B832 +B754 -B589 -B833 +Bcut | +B784 +B543 -B834 -B559 +Bcut | +B172 +B835 -B544 -B559 +Bcut * lead below ME2 R337 5 | +B560 +B174 -B173 -B369 +Bcut | +B826 +B174 -B173 -B827 +Bcut | +B542 +B545 -B808 -B560 +Bcut * lead below ME3 R338 5 | +B561 +B176 -B175 -B394 +Bcut | +B828 +B176 -B175 -B829 +Bcut | +B542 +B811 -B548 -B561 +Bcut * lead below ME4 R339 5 | +B562 +B427 -B177 -B419 +Bcut | +B830 +B427 -B177 -B831 +Bcut | +B542 +B813 -B550 -B562 +Bcut * *** air in the clearance z=1800-1805 * *** lowest layer of iron around collimator (22-40cm) bias 2 R340 5 +B463 +B563 -B449 -B463 +Bcut * *** second layer of iron around collimator (40-70 cm) bias 4 R341 5 +B446 +B563 -B449 -B463 +B451 +Bcut * *** third layer of iron around collimator (70-90 cm) bias 8 R342 5 +B451 +B563 -B449 -B446 +Bcut * *** air in the clearance between HV back shield and thin shield * bias 32 R343 5 +B443 -B443 +Bcut * bias 64 R344 5 | +B444 +B566 -B574 -B443 +Bcut | +B444 +B904 -B441 -B443 -suppleg1 -suppleg2 +Bcut * bias 128 R345 5 | +B445 +B566 -B574 -B444 +Bcut | +B445 +B904 -B441 -B444 -suppleg1 -suppleg2 +Bcut * bias 256 R346 5 | +B910 +B566 -B574 -B445 +Bcut | +B910 +B904 -B441 -B445 -suppleg1 -suppleg2 +Bcut * bias 512 R347 5 | +B917 +B566 -B574 -B910 +Bcut | +B905 +B904 -B441 -B910 -suppleg1 -suppleg2 +Bcut * bias 1024 R348 5 | +B918 +B566 -B574 -B917 +Bcut | +B907 +B904 -B441 -B905 +Bcut * air between endcap and HV shielding R349 5 +B432 +B567 -B429 -B431 +Bcut R350 5 +B433 +B567 -B429 -B432 +Bcut R351 5 +B434 +B567 -B429 -B433 +Bcut R352 5 +B435 +B567 -B429 -B434 +Bcut * PE at back of HV R353 5 +B181 +B436 +B569 -B444 -B570 -B190 +Bcut * Iron in that PE R354 5 +B179 +B436 -B190 -B178 +Bcut R355 5 +B444 +B436 -B190 -B179 +Bcut R356 5 +B716 +B436 +B570 -B444 +Bcut * borated PE to protect HV phototubes * cell (bias 512) R357 5 +B897 +B439 -B571 -B453 +Bcut * cell (bias 1014) R358 5 +B897 +B441 -B439 -B453 +Bcut * substrate of first MSGC layer R359 5 +B36 +B35 -B2 -B49 +Bcut * PE behind HV cell 1 (bias 32) R360 5 +B181 +B437 -B437 -B453 +Bcut * *** transition plug (collar), HF shielding-thin shielding * bias 32 (air in place of pump) * 361 +445 -445 * lead on top of that collar, bias 1024 * 361 OR +907 +574 -915 -906 * OR +907 +915 -904 -906 +913 * OR +907 +915 -904 +914 -913 * bias 32 (fe) R361 5 +B444 +B574 -B904 -B443 +Bcut * bias 64 (fe) R362 5 +B445 +B574 -B904 -B444 +Bcut * bias 128 (fe) R363 5 +B909 +B574 -B904 -B445 +Bcut * bias 256 (mgn-conc) R364 5 +B910 +B574 -B904 -B909 +Bcut * bias 1024 (mgn-conc) R365 5 | +B911 +B574 -B915 -B910 +Bcut | +B911 +B915 -B904 -B910 +B912 +Bcut * bias 1024 (PE) R366 5 | +B907 +B574 -B915 -B911 +Bcut | +B907 +B915 -B904 -B911 +B912 +Bcut | +B907 +B915 -B904 +B913 -B912 -B910 +Bcut * Iron joint from HF shielding to HF plug R367 5 +B453 +B571 -B436 -B716 +Bcut * clearance below HF-PM shield R368 5 +B576 +B572 -B571 -B181 +Bcut R369 5 +B576 +B438 -B572 -B181 +Bcut * HE absorbers * layer 1, copper (bias 4) R370 5 | +B80 +B118 -B117 -B807 +Bcut | +B80 +B120 -B119 -B78 +Bcut | +B80 +B122 -B121 -B78 +Bcut | +B80 +B124 -B123 -B78 +Bcut | +B80 +B126 -B125 -B78 +Bcut * layer 2, lowest sector (bias 8) R371 5 | +B887 +B128 -B127 -B78 +Bcut | +B887 +B130 -B129 -B78 +Bcut | +B887 +B132 -B131 -B78 +Bcut | +B887 +B134 -B133 -B78 +Bcut | +B887 +B136 -B135 -B78 +Bcut | +B887 +B138 -B137 -B78 +Bcut * layer 3, lowest sector (bias 16) R372 5 | +B887 +B140 -B139 -B78 +Bcut | +B887 +B142 -B141 -B78 +Bcut | +B887 +B144 -B143 -B78 +Bcut | +B887 +B578 -B577 -B78 +Bcut | +B887 +B580 -B579 -B78 +Bcut | +B887 +B582 -B581 -B78 +Bcut | +B887 +B584 -B583 -B78 +Bcut | +B887 +B586 -B585 -B78 +Bcut * layer 2, upper sector (bias 32) R373 5 | +B80 +B128 -B127 -B887 +Bcut | +B80 +B172 +B130 -B129 -B887 +Bcut | +B172 +B132 -B131 -B887 +Bcut | +B172 +B134 -B133 -B887 +Bcut | +B172 +B136 -B135 -B887 +Bcut | +B172 +B138 -B137 -B887 +Bcut * layer 3, middle sector (bias 64) R374 5 | +B432 +B140 -B139 -B887 +Bcut | +B432 +B142 -B141 -B887 +Bcut | +B432 +B144 -B143 -B887 +Bcut | +B432 +B578 -B577 -B887 +Bcut | +B432 +B580 -B579 -B887 +Bcut | +B432 +B582 -B581 -B887 +Bcut | +B432 +B584 -B583 -B887 +Bcut | +B432 +B586 -B585 -B887 +Bcut * layer 3, upper sector (bias 256) R375 5 | +B172 +B140 -B139 -B432 +Bcut | +B172 +B142 -B141 -B432 +Bcut | +B172 +B144 -B143 -B432 +Bcut | +B172 +B578 -B577 -B432 +Bcut | +B90 +B580 -B579 -B432 +Bcut | +B90 +B582 -B581 -B432 +Bcut | +B90 +B584 -B583 -B432 +Bcut | +B90 +B586 -B585 -B432 +Bcut * layer 4, upper corner (bias 512) R376 5 | +B591 +B580 -B579 -B90 +Bcut | +B591 +B582 -B581 -B90 +Bcut | +B591 +B584 -B583 -B90 +Bcut | +B591 +B586 -B585 -B90 +Bcut * Steel back plate R377 5 +B887 +B589 -B588 -B78 +Bcut R378 5 +B432 +B589 -B588 -B887 +Bcut R379 5 +B90 +B589 -B588 -B432 +Bcut R380 5 +B172 +B589 -B588 -B90 +Bcut * air in the crack R381 5 | +B115 +B79 -B80 -B667 +Bcut | +B80 +B116 -B667 +Bcut | +B81 -B79 +B116 -B667 -B672 +Bcut | +B115 +B148 +B80 -B172 +Bcut | +B113 +B589 -B79 -B592 -B109 +Bcut * barrel HPD box (bias 128) R382 5 +B113 +B592 -B79 -B590 -B109 +Bcut -(heboxx2 -heboxx1 +hbboxy2 -hbboxy1 +hbboxz2 -hbboxz1) * endcap HPD box (bias 512) R383 5 +B172 +B587 -B579 -B591 +Bcut -(heboxx2 -heboxx1 + heboxy2 -heboxy1 + heboxz2 - heboxz1) * air layer around HF shield (for spectral scoring) R384 5 +B596 +B441 -B428 -B435 +Bcut * MF1 G10 skins R385 5 | +B172 +B306 -B305 -B324 +Bcut | +B172 +B308 -B307 -B324 +Bcut | +B172 +B310 -B309 -B324 +Bcut | +B172 +B312 -B311 -B324 +Bcut | +B172 +B314 -B313 -B324 +Bcut | +B172 +B316 -B315 -B324 +Bcut | +B172 +B318 -B317 -B324 +Bcut | +B172 +B598 -B597 -B324 +Bcut | +B172 +B600 -B599 -B324 +Bcut | +B172 +B602 -B601 -B324 +Bcut | +B172 +B604 -B603 -B324 +Bcut | +B172 +B606 -B605 -B324 +Bcut | +B172 +B608 -B607 -B324 +Bcut | +B172 +B610 -B609 -B324 +Bcut | +B172 +B757 -B756 -B324 +Bcut | +B172 +B759 -B758 -B324 +Bcut | +B172 +B761 -B760 -B324 +Bcut | +B172 +B763 -B762 -B324 +Bcut | +B172 +B765 -B764 -B324 +Bcut | +B172 +B767 -B766 -B324 +Bcut | +B172 +B769 -B768 -B324 +Bcut | +B172 +B771 -B770 -B324 +Bcut | +B172 +B773 -B772 -B324 +Bcut | +B172 +B775 -B774 -B324 +Bcut | +B172 +B777 -B776 -B324 +Bcut | +B172 +B779 -B778 -B324 +Bcut | +B172 +B781 -B780 -B324 +Bcut | +B172 +B783 -B782 -B324 +Bcut * MF1A G10 skins R386 5 | +B162 +B332 -B331 -B172 +Bcut | +B162 +B334 -B333 -B172 +Bcut | +B162 +B336 -B335 -B172 +Bcut | +B162 +B338 -B337 -B172 +Bcut | +B162 +B340 -B339 -B172 +Bcut | +B162 +B342 -B341 -B172 +Bcut | +B162 +B344 -B343 -B172 +Bcut | +B162 +B612 -B611 -B172 +Bcut | +B162 +B614 -B613 -B172 +Bcut | +B162 +B616 -B615 -B172 +Bcut | +B162 +B618 -B617 -B172 +Bcut | +B162 +B620 -B619 -B172 +Bcut | +B162 +B622 -B621 -B172 +Bcut | +B162 +B624 -B623 -B172 +Bcut * MF1B G10 skins R387 5 | +B498 +B332 -B331 -B163 +Bcut | +B498 +B334 -B333 -B163 +Bcut | +B498 +B336 -B335 -B163 +Bcut | +B498 +B338 -B337 -B163 +Bcut | +B498 +B340 -B339 -B163 +Bcut | +B498 +B342 -B341 -B163 +Bcut | +B498 +B344 -B343 -B163 +Bcut | +B498 +B612 -B611 -B163 +Bcut | +B498 +B614 -B613 -B163 +Bcut | +B498 +B616 -B615 -B163 +Bcut | +B498 +B618 -B617 -B163 +Bcut | +B498 +B620 -B619 -B163 +Bcut | +B498 +B622 -B621 -B163 +Bcut | +B498 +B624 -B623 -B163 +Bcut * MF2lower G10 skins R388 5 | +B497 +B353 -B352 -B370 +Bcut | +B497 +B355 -B354 -B370 +Bcut | +B497 +B357 -B356 -B370 +Bcut | +B497 +B359 -B358 -B370 +Bcut | +B497 +B361 -B360 -B370 +Bcut | +B497 +B363 -B362 -B370 +Bcut | +B497 +B365 -B364 -B370 +Bcut | +B497 +B626 -B625 -B370 +Bcut | +B497 +B628 -B627 -B370 +Bcut | +B497 +B630 -B629 -B370 +Bcut | +B497 +B632 -B631 -B370 +Bcut | +B497 +B634 -B633 -B370 +Bcut | +B497 +B636 -B635 -B370 +Bcut | +B497 +B638 -B637 -B370 +Bcut * MF2upper G10 skins R389 5 | +B498 +B353 -B352 -B497 +Bcut | +B498 +B355 -B354 -B497 +Bcut | +B498 +B357 -B356 -B497 +Bcut | +B498 +B359 -B358 -B497 +Bcut | +B498 +B361 -B360 -B497 +Bcut | +B498 +B363 -B362 -B497 +Bcut | +B498 +B365 -B364 -B497 +Bcut | +B498 +B626 -B625 -B497 +Bcut | +B498 +B628 -B627 -B497 +Bcut | +B498 +B630 -B629 -B497 +Bcut | +B498 +B632 -B631 -B497 +Bcut | +B498 +B634 -B633 -B497 +Bcut | +B498 +B636 -B635 -B497 +Bcut | +B498 +B638 -B637 -B497 +Bcut * MF3lower G10 skins R390 5 | +B497 +B378 -B377 -B395 +Bcut | +B497 +B380 -B379 -B395 +Bcut | +B497 +B382 -B381 -B395 +Bcut | +B497 +B384 -B383 -B395 +Bcut | +B497 +B386 -B385 -B395 +Bcut | +B497 +B388 -B387 -B395 +Bcut | +B497 +B390 -B389 -B395 +Bcut | +B497 +B640 -B639 -B395 +Bcut | +B497 +B642 -B641 -B395 +Bcut | +B497 +B644 -B643 -B395 +Bcut | +B497 +B646 -B645 -B395 +Bcut | +B497 +B648 -B647 -B395 +Bcut | +B497 +B650 -B649 -B395 +Bcut | +B497 +B652 -B651 -B395 +Bcut * MF3upper G10 skins R391 5 | +B498 +B378 -B377 -B497 +Bcut | +B498 +B380 -B379 -B497 +Bcut | +B498 +B382 -B381 -B497 +Bcut | +B498 +B384 -B383 -B497 +Bcut | +B498 +B386 -B385 -B497 +Bcut | +B498 +B388 -B387 -B497 +Bcut | +B498 +B390 -B389 -B497 +Bcut | +B498 +B640 -B639 -B497 +Bcut | +B498 +B642 -B641 -B497 +Bcut | +B498 +B644 -B643 -B497 +Bcut | +B498 +B646 -B645 -B497 +Bcut | +B498 +B648 -B647 -B497 +Bcut | +B498 +B650 -B649 -B497 +Bcut | +B498 +B652 -B651 -B497 +Bcut * MF4lower G10 skins R392 5 | +B497 +B403 -B402 -B420 +Bcut | +B497 +B405 -B404 -B420 +Bcut | +B497 +B407 -B406 -B420 +Bcut | +B497 +B409 -B408 -B420 +Bcut | +B497 +B411 -B410 -B420 +Bcut | +B497 +B413 -B412 -B420 +Bcut | +B497 +B415 -B414 -B420 +Bcut | +B497 +B654 -B653 -B420 +Bcut | +B497 +B656 -B655 -B420 +Bcut | +B497 +B658 -B657 -B420 +Bcut | +B497 +B660 -B659 -B420 +Bcut | +B497 +B662 -B661 -B420 +Bcut | +B497 +B664 -B663 -B420 +Bcut | +B497 +B666 -B665 -B420 +Bcut * MF4upper G10 skins R393 5 | +B498 +B403 -B402 -B497 +Bcut | +B498 +B405 -B404 -B497 +Bcut | +B498 +B407 -B406 -B497 +Bcut | +B498 +B409 -B408 -B497 +Bcut | +B498 +B411 -B410 -B497 +Bcut | +B498 +B413 -B412 -B497 +Bcut | +B498 +B415 -B414 -B497 +Bcut | +B498 +B654 -B653 -B497 +Bcut | +B498 +B656 -B655 -B497 +Bcut | +B498 +B658 -B657 -B497 +Bcut | +B498 +B660 -B659 -B497 +Bcut | +B498 +B662 -B661 -B497 +Bcut | +B498 +B664 -B663 -B497 +Bcut | +B498 +B666 -B665 -B497 +Bcut * Air in EE/HE gap R394 5 +B455 +B675 -B77 -B345 +Bcut * Al-plate behind EE R395 5 +B71 +B674 -B541 -B78 +Bcut * moderator on HE side in EE/HE gap R396 5 +B807 +B118 -B675 -B345 +Bcut * innermost layer of mgnconc around collimator R397 5 | +B679 +B499 -B682 -B452 +Bcut | +B679 +B564 +B469 -B452 -B449 +Bcut | +B679 +B564 -B452 -B558 -B469 +Bcut * steel insert R398 5 +B753 +B682 -B564 -B452 -B743 -B744 +Bcut * block between z=2170-2265 R399 5 +B686 +B687 -B499 -B688 +B697 -B696 -B706 -B708 +Bcut * air in this block R400 5 | +B688 +B687 -B458 -B464 +Bcut | +B688 +B458 -B499 -B451 -B689 -B690 -B691 -B692 +Bcut * fillings at z=2170 R401 5 | +B688 -B499 +B689 +Bcut | +B688 -B499 +B690 +Bcut | +B688 -B499 +B691 +Bcut | +B688 -B499 +B692 +Bcut * upper and lower lid of rot shield (2115-2170) R402 5 +B686 +B499 -B693 +B697 -B695 +B698 +B699 -B680 +Bcut R403 5 +B686 +B499 -B693 +B694 -B696 +B698 +B699 -B680 +Bcut * air in the region R<252, z=2115-2170 R404 5 | +B704 -B705 +B686 +B499 -B693 -B698 -B680 +Bcut | +B704 -B705 +B686 +B499 -B693 -B699 -B680 +Bcut | +B704 -B705 +B686 +B499 -B693 +B695 -B694 -B680 +B698 +B699 -B701 -B702 +Bcut | +B704 -B705 +B686 +B499 -B693 +B695 -B694 -B680 +B698 +B699 +B700 -B703 +Bcut | +B704 -B705 +B686 +B499 -B693 +B698 +B699 -B697 +Bcut | +B704 -B705 +B686 +B499 -B693 +B698 +B699 +B696 +Bcut * thickening on the side from 2115-2170 R405 5 +B695 -B694 +B499 -B693 +B701 -B700 -B680 +Bcut * outer fillings on the side R406 5 | +B702 +B499 -B701 +B695 -B694 +Bcut | +B703 +B499 +B700 +B695 -B694 +Bcut * Lids of block house R407 5 | +B468 +B687 -B499 -B704 -B707 +Bcut | +B468 +B687 -B499 +B705 +Bcut * vertical hole for support of nose R408 5 | +B706 +B697 -B695 -B688 +Bcut | +B706 +B694 -B696 -B688 +Bcut | +B708 +B694 -B696 -B688 +Bcut * hole in the upper lid R409 5 +B707 -B499 -B704 +Bcut * Q1 outer shell R410 5 | +B711 +B709 -B710 -B482 +Bcut | +B712 +B426 -B710 -B711 +Bcut * material as front of Q1 R411 5 +B711 +B477 -B709 -B482 +Bcut * Material around cold mass R412 5 +B711 +B426 -B477 -B478 +Bcut * spectral scoring on top of block house R413 5 +B714 +B424 -B687 -B468 +Bcut * spectral scoring on top of thick shield R414 5 +B693 +B714 -B1009 -B574 +Bcut * spectral scoring on top of HF shield R416 5 +B714 +B441 -B428 -B468 +Bcut -(x2hfrack -x1hfrack +y4hfrack -y3hfrack +z4hfrack -z2hfrack) * spectral scoring along low part of ME4 wall R417 5 +B715 +B429 -B428 -B714 +Bcut * spectral scoring along upper part of ME4 wall R418 5 +B498 +B429 -B428 -B715 +Bcut * HC insert in the rot shielding * bias of 280 R419 5 +B453 +B682 -B564 -B753 -B743 -B744 +Bcut * bias of 281 R420 5 +B454 +B682 -B564 -B453 -B753 -B743 -B744 +Bcut * bias of 282 R421 5 +B455 +B682 -B564 -B454 -B753 -B743 -B744 +Bcut * bias of 283 R422 5 +B456 +B682 -B564 -B455 -B743 -B744 +Bcut * bias of 284 R423 5 | +B838a +B682 -B889a -B456 -B744 -B696 +Bcut | +B890a +B889a -B564a -B456 -B743 -B696 +Bcut | -B564 +B836a +B564a -B456 * specrtral scoring around barrel R=11-12m * bias 2048 R424 5 +B421 +B148 -B2 -B721 +Bcut * bias 1024 R425 5 +B421 +B841 -B574 -B721 +Bcut * air in the support jack holes R426 5 | +B463 -B718 +B740 +Bcut | +B463 -B718 +B739 +Bcut | +B463 +B737 -B742 +Bcut R427 5 | +B446 +B451 +B737 -B463 +Bcut | +B446 +B451 +B738 -B741 +Bcut | +B446 -B463 +B451 +B740 +B741 +Bcut R428 5 | +B453 -B446 +B451 +B737 +Bcut | +B453 -B446 +B451 +B738 +Bcut R429 5 | +B451 -B453 +B737 +Bcut | +B451 -B453 +B738 +Bcut * holes to support jacks R430 5 | +B679 -B452 +B743 +Bcut | +B679 -B452 +B744 +Bcut R431 5 | +B891 -B890 +B743 -B696 +Bcut | +B839 -B838 +B744 -B696 +Bcut R432 5 | +B453 -B679 +B743 +Bcut | +B453 -B679 +B744 +Bcut * bias of 281 R433 5 | +B454 -B453 -B679 +B743 +Bcut | +B454 -B453 -B679 +B744 +Bcut * bias of 282 R434 5 | +B455 -B454 -B679 +B743 +Bcut | +B455 -B454 -B679 +B744 +Bcut * bias of 283 R435 5 | +B456 -B455 +B743 +Bcut | +B456 -B455 +B744 +Bcut * bias of 284 R436 5 | +B890 -B456 +B743 -B696 +Bcut | +B838 -B456 +B744 -B696 +Bcut * central plate in ME1/1 R437 5 +B172 +B755 -B754 -B322 +Bcut * bellows R438 5 | +B798 +B791 -B790 -B797 +Bcut | +B798 +B795 -B794 -B797 +Bcut * Tracking air volumes * Tracking air volumes Barrel Pixel detector (BPIX) * Air between inner shielding and pixel layer 1 R439a 5 +B21 -B21b -B2 +B27a +Bcut * Air between pixel layer 1 and layer 2 R439 5 +B23 +B27 -B2 -B22 +Bcut * Air between pixel layer 2 and layer 3 R440 5 +B25 +B27 -B2 -B24 +Bcut * Air between pixel layer 3 and outer shielding R440a 5 +B26a -B26 -B2 +B27 +Bcut * Air between endflange and first forward pixel R441 5 +B28a +B30 -B27b -B29a +Bcut * Air between FPIX1-FPIX2 R442 5 +B28a +B32 -B31 -B29a +Bcut * Air downstream FPIX2 R443 5 +B28a +B34 -B33 -B29a +Bcut * end air * * between tib1-tib2 R444 5 +B38 +B842 -B1063 -B37 +Bcut * between tib2-tib3 R445 5 +B40 +B842 -B2 -B39 +Bcut * between tib3-tib4 R446 5 +B42 +B842 -B2 -B41 +Bcut * between tid1-tid2 R447 5 +B43 +B845 -B844 -B36 +Bcut * between tid2-tid3 R448 5 +B43 +B847 -B846 -B36 +Bcut * between tob1-tob2 R449 5 | +B852 +B33 -B2 -B851 +Bcut | +B852 +B849 -B34 -B851 +Bcut * between tob2-tob3 R450 5 +B854 +B849 -B2 -B853 +Bcut * between tob3-tob4 R451 5 +B856 +B849 -B2 -B855 +Bcut * between tob4-tob5 R452 5 +B858 +B849 -B2 -B857 +Bcut * between tob5-tob6 R453 5 |+B860 +B33 -B2 -B859 +Bcut |+B860 +B849 -B34 -B859 +Bcut * between tec1-tec2 R454 5 +B861 +B867 -B866 -B36 +Bcut * between tec2-tec3 R455 5 +B861 +B869 -B868 -B36 +Bcut * between tec3-tec4 R456 5 +B861 +B871 -B870 -B862 +Bcut * between tec4-tec5 R457 5 +B861 +B873 -B872 -B862 +Bcut * between tec5-tec6 R458 5 +B861 +B875 -B874 -B862 +Bcut * between tec6-tec7 R459 5 +B861 +B877 -B876 -B862 +Bcut * between tec7-tec8 R460 5 +B861 +B879 -B878 -B862 +Bcut * between tec7-tec9 R461 5 +B861 +B881 -B880 -B862 +Bcut * TOB endflange upper part (or something like that) R462 5 +B892 +B893 -B894 -B951 +Bcut * additional layers in HF plug * second BPE R463 5 +B568 +B896 -B895 -B576 +Bcut * second Pb R464 5 +B568 +B438 -B896 -B576 +Bcut * cylindrical BPE R465 5 +B181 +B439 -B571 -B897 +Bcut R466 5 +B181 +B441 -B439 -B897 +Bcut * * CASTOR plus R467 5 +B899 -B901 +B900 -B898 +Bcut R467a 5 +B899a -B901 +B900 -B899 +Bcut * * CASTOR minus R467m 5 +B899 +B900m -B901m -B898 +Bcut R467am 5 +B899a -B901m +B900m -B899 +Bcut * * one layer in the collar * bias 128 R468 5 +B907 +B915 -B904 +B914 -B913 +Bcut * thin pipe behind HF R469 5 | +B982 -B983 +B978 -B977 +Bcut | +B982 -B981 +B979 -B978 +Bcut -( +B996 -B995 -B997 +B982 ) | +B982 -B984 +B980 -B979 +Bcut | +B748 -B747 +B985 -B980 +Bcut | +B727 -B726 +B974 -B985 +Bcut | +B975 +B939 -B974 -B976 +Bcut | +B938 +B947 -B939 -B976 +Bcut | +B938 +B940 -B947 -B936 +Bcut | +B937 +B945 -B940 -B936 +Bcut | +B937 +B941 -B946 -B936 +Bcut | +B938 +B948 -B941 -B936 +Bcut | +B938 +B942 -B948 -B976 +Bcut | +B975 +B928 -B942 -B976 +Bcut | +B927 +B929 -B928 -B926 +Bcut | +B931 +B713 -B929 -B930 +Bcut * vacuum pump at 13m R470 5 +B919 +B921 -B920 -B922 +Bcut * bellow at 16m R471 5 +B943 +B946 -B945 -B944 +Bcut * permanent bakeout jackets R472 5 | +B932 +B929 -B928 -B927 +Bcut | +B713 +B933 -B931 -B929 +Bcut * TOB endflange * second from above R473 5 +B951 +B893 -B894 -B950 +Bcut * third from above R474 5 +B950 +B893 -B894 -B949 +Bcut * lowest R475 5 +B949 +B893 -B894 -B36 +Bcut * TK endflange * uppermost R476 5 +B44 +B952 -B953 -B951 +Bcut * second from above R477 5 +B951 +B952 -B953 -B950 +Bcut * third from above R478 5 +B950 +B952 -B953 -B949 +Bcut * lowest R479 5 +B949 +B952 -B953 -B20 +Bcut * Surface of cavern wall R480 5 | +B422 -B421 -Bcut +B425 -( +B987 -B990 ) -B1011 | +B422 -B424 +B425 -( +B987 -B990 ) -B1011 * Second layer of cavern wall R481 5 | +B423 -B422 -Bcut +B425 -( +B987 -B990 ) -B1011 | +B423 +B426 -B425 -( +B987 -B990 ) -B1011 * Air right of Bcut R482 5 +B424 -Bcut +B421 -B1011 -B1019 -B1020 -B1021 -B1022 -B1026 -( +B424 +B1010 -B687 -B714 ) -B1031 * Air in shaft R483 5 +B987 -B423 +B989 -B990 * Concrete walls of shaft R484 5 +B988 -B987 -B423 +B989 -B990 * Air in shaft near cavern R485 5 +B987 -B421 +B422 -B990 * Air in shaft second layer R486 5 +B987 -B422 +B423 -B990 * Vac Pump at 13m new version R487 5 +B993 +B992 -B994 -B991 * BSC3 layer1 R488 5 +B1000 -B999 +B1004 -B1003 * layer2 R489 5 +B1001 -B1000 +B1004 -B1003 * layer3 R490 5 +B1002 -B1001 +B1004 -B1003 * Iron cast for RS R491 5 +B917a -B917 +B448 -B566a * Front face RS iron cast R492 5 -B566 +B566a -B443 +B917a * First trucated cone, iron cast R493 5 +B473 -B473a -B448 +B486 -B917 R494 5 +B836 -B836a -B486 +B564 R495 5 +B890 -B890a +B889a -B564 -B743 R496 5 +B838 -B838a +B682 -B889 -B696 -B744 R497 5 +B889a -B889 +B838a -B890 -B696 R498 5 +B564a -B564 +B890a -B836a R499 5 +B836a -B1006 +B486a -B486 * SM: formerly R480 in CT's file R500 5 | +B428 +B1008 -B148 -B498 -B1007 +Bcut | +B148 +B1008 -B2 -B539 -B1007 +Bcut * SM: Formerly R481 in CT's file R501 5 | +B428 +B1007 -B148 -B498 +Bcut | +B148 +B1007 -B2 -B539 +Bcut * SM: formerly R483 in CT's file R502 5 +B424 +B1010 -B687 -B714 * Blockhouse tunnel R503 5 +B1011 -B1011a -B1018 +B426 -B1031 * Air in BH tunnel R503a 5 +B1011a -B1012 +B426 -B1018 * Air in front of blockhouse R503b 5 | +B1011 -Bcut +B1018 -B1012 -B1021 -B1022 -B1023 -B1024 -B1025 -B1027 -B1029 -( +B451 -B685 +B1030 ) -B1031 | +B1028 -B1012 -B1029 | +B1029 +B685 -B1012 -B1030 | +B452 -B1012 -Bcut +B1025 -( +B451 -B685 +B1030 ) | +B1030 +B1029 -B1012 -(+B451-B685) * q1 outer shell R504 5 +B1012 -B1012a -B1017 +B426 * q1 honeycomb R505 5 +B1012a -B1014 -B1015 +B426 * q1 steel R506 5 +B1014 -B1013 -B1015 +B426 * q1 bp R507 5 +B1013 -Bcut +B426 * bp in front of q1 R507a 5 -B1013 -Bcut +B482 +B1015 * q1 endcap honycomb R508 5 +B1015 -B1017 +B1012a -B1013 -B482 * st steel R509 5 +B1012 -B1013 +B1017 -B1016 -B482 * Air in front of q1 R510 5 | +B1012 -B1013 +B1016 -Bcut -B482 +B1032 | +B1012 -B1013 +B1016 -Bcut -B1034 -B1032 +B1033 | +B1012 -B1013 +B1016 -Bcut -B482 -B1033 R511 5 | +B1019 -B1011 -B1021 | +B1020 -B1011 -B1022 R512 5 | +B1021 | +B1022 R513 5 | +B1023 -B1021 | +B1024 -B1022 * rect part of rs R514 5 +B1025 -B1021 -B1022 -B1023 -B1024 -Bcut -B452 R516 5 +B1026 -B1011 +B424 * fixture for fin R517 5 +B1027 -B1028 R518 5 +B1029 -B685 -B1030 R519 5 +B1031 R520 5 +B1033 -B1032 +B1034 -B482 * T1 Layer1 Ring R521 5 +B1035a -B1035 -B1036 +B1037 * T1 Layer2 Ring R522 5 +B1035a -B1035 -B1038 +B1039 * T1 Layer3 Ring R523 5 +B1035a -B1035 -B1040 +B1041 * T1 Layer4 Ring R524 5 +B1035a -B1035 -B1042 +B1043 * T1 Layer5 Ring R525 5 +B1035a -B1035 -B1044 +B1045 * T1 Layer6 Ring R526 5 +B1035a -B1035 -B1046 +B1047 * T1 support structure R526a 5 +B78 -B1035a -B1036 +B1047 * T1 Layer1 Detector R527 5 +B1035 -B11 -B1048 +B1049 * T1 Layer2 Detector R528 5 +B1035 -B11 -B1050 +B1051 * T1 Layer3 Detector R529 5 +B1035 -B11 -B1052 +B1053 * T1 Layer4 Detector R530 5 +B1035 -B11 -B1054 +B1055 * T1 Layer5 Detector R531 5 +B1035 -B11 -B1056 +B1057 * T1 Layer6 Detector R532 5 +B1035 -B11 -B1058 +B1059 * T1 Electronics Layers R533 5 | +B1035a -B1035b -B1037a +B1037b | +B1035a -B1035b -B1039b +B1039c | +B1035a -B1035b -B1043a +B1043b * T1 Metal Layers R534 5 | +B1035a -B1035b -B1037b +B1037c | +B1035a -B1035b -B1039a +B1039b | +B1035a -B1035b -B1039c +B1039d | +B1035a -B1035b -B1041a +B1041b | +B1035a -B1035b -B1043b +B1043c * * define region R297N as a replica, with the lattice number 1.0 associated * to be used for roto-traslation number 1 * subtract castor (its defined by itself) * removed shaft (would be | +N988 +B989 -B423 +B990) R297N 5 | +B421 -N426 +B2 -(+B899a +B900m -B901m -B898) * * Regions for Diamond Detectors * ----------------------------- RBCM2o 5 +B954 -B955 -B956a +B957a +Bcut RBCM2i 5 +B958 -B959 -B956a +B957a +Bcut * AL wheels of BCM2 * maybe low energy effects. RBCM2W 5 |+B443 -B727 -B956 +B956a |+B443 -B727 -B957a +B957 RBCM1F 5 +B967 -B966 -B968 +B969 +Bcut RBCM1L 5 +B971 -B970 -B972 +B973 +Bcut #if 0 * Regions for spectral scoring in Tracker region * ------------------------------------------------------------- * Positons named TK1-TK7 R534TK1 5 +B23 +B1063 -B2 -B22 +Bcut #endif TKspect2 5 +B38 +B1063 -B2 -B37 +Bcut #if 0 R534TK3 5 +B20 -B28 -B34 +B35 #endif TKspect4 5 | +B852 +B34 -B33 -B851 +Bcut TKspect5 5 | +B860 +B34 -B33 -B859 +Bcut * ********** Detector Chambers of TOTEM-T2 and external layes ********** * - (+ang1 -cutx -cuty -innla +endl1f) - (-ang2 -cutx +cuty -innla * +endl1f) T2L1 5 |+middle -innla +endl1f -inner -ang1 |+middle -innla +endl1f -inner +ang2 T2L1OUT 5 |+outer -coolin -cool1f +endl1f -inner -ang1co |+outer -coolin -cool1f +endl1f -inner +ang2co T2L1CIL1 5 +cocil1 -cool1f +endl1f T2L2 5 |+middle -begl2n +endl2n -inner - ang2 |+middle -begl2n +endl2n -inner +ang1 T2L2OUT 5 |+outer -coolin -cool2n +endl2n -inner - ang2co |+outer -coolin -cool2n +endl2n -inner +ang1co T2L2CIL2 5 +cocil2 -cool2n +endl2n T2L3 5 |+middle -begl3f +endl3f -inner - ang1 |+middle -begl3f +endl3f -inner +ang2 T2L3OUT 5 |+outer -coolin -cool3f +endl3f -inner - ang1co |+outer -coolin -cool3f +endl3f -inner +ang2co T2L3CIL1 5 +cocil1 -cool3f +endl3f T2L4 5 |+middle -begl4n +endl4n -inner -ang2 |+middle -begl4n +endl4n -inner +ang1 T2L4OUT 5 |+outer -coolin -cool4n +endl4n -inner -ang2co |+outer -coolin -cool4n +endl4n -inner +ang1co T2L4CIL2 5 +cocil2 -cool4n +endl4n T2L5 5 |+middle -begl5f +endl5f -inner -ang1 |+middle -begl5f +endl5f -inner +ang2 T2L5OUT 5 |+outer -coolin -cool5f +endl5f -inner -ang1co |+outer -coolin -cool5f +endl5f -inner +ang2co T2L5CIL1 5 +cocil1 -cool5f +endl5f T2L6 5 |+middle -begl6n +endl6n -inner -ang2 |+middle -begl6n +endl6n -inner +ang1 T2L6OUT 5 |+outer -coolin -cool6n +endl6n -inner -ang2co |+outer -coolin -cool6n +endl6n -inner +ang1co T2L6CIL2 5 +cocil2 -cool6n +endl6n T2L7 5 |+middle -begl7f +endl7f -inner -ang1 |+middle -begl7f +endl7f -inner +ang2 T2L7OUT 5 |+outer -coolin -cool7f +endl7f -inner -ang1co |+outer -coolin -cool7f +endl7f -inner +ang2co T2L7CIL1 5 +cocil1 -cool7f +endl7f T2L8 5 |+middle -begl8n +endl8n -inner -ang2 |+middle -begl8n +endl8n -inner +ang1 T2L8OUT 5 |+outer -coolin -cool8n +endl8n -inner -ang2co |+outer -coolin -cool8n +endl8n -inner +ang1co T2L8CIL2 5 +cocil2 -cool8n +endl8n T2L9 5 |+middle -begl9f +endl9f -inner -ang1 |+middle -begl9f +endl9f -inner +ang2 T2L9OUT 5 |+outer -coolin -cool9f +endl9f -inner -ang1co |+outer -coolin -cool9f +endl9f -inner +ang2co T2L9CIL1 5 +cocil1 -cool9f +endl9f T2L10 5 |+middle -bel10n +enl10n -inner -ang2 |+middle -bel10n +enl10n -inner +ang1 T2L10OUT 5 |+outer -coolin -col10n +enl10n -inner -ang2co |+outer -coolin -col10n +enl10n -inner +ang1co T2L10CI2 5 +cocil2 -col10n +enl10n * TOTEM-T2 11th cards CARD1 5 +elecard1 CARD2 5 +elecard2 * TOTEM-T2 Support Structures SUPPBA1 5 +suppbar1 -suppbin1 -innla +outla SUPPBIN1 5 +suppbin1 -innla +outla SUPPBA2 5 +suppbar2 -suppbin2 -innla +outla SUPPBIN2 5 +suppbin2 -innla +outla SUPPBA3 5 +suppbar3 -suppbin3 -innla +outla SUPPBIN3 5 +suppbin3 -innla +outla SUPPBA4 5 +suppbar4 -suppbin4 -innla +outla SUPPBIN4 5 +suppbin4-innla +outla LEG1 5 +suppleg1 LEG2 5 +suppleg2 * Totem T2 Air * -( +cocil2 -cool2n +endl2n | +cocil2 -cool4n +endl4n * |+cocil2 -cool6n +endl6n | +cocil2 -cool8n +endl8n | +cocil2 -col10n +enl10n * | +cocil1 -cool3f +endl3f |+cocil1 -cool5f +endl5f * | +cocil1 -cool7f +endl7f | +cocil1 -cool9f +endl9f ) T2AIR 5 |+B178 -outer -innla +B441 -elecard1 -elecard2 -suppbar1 -suppbar2 -suppbar3 -suppbar4 |+inner -B727 -innla +B441 | +outer -coolin -innla +cool1f | +outer -coolin -endl1f+cool2n | +outer -coolin -endl2n+cool3f | +outer -coolin -endl3f+cool4n | +outer -coolin -endl4n+cool5f | +outer -coolin -endl5f+cool6n | +outer -coolin -endl6n+cool7f | +outer -coolin -endl7f+cool8n | +outer -coolin -endl8n+cool9f | +outer -coolin -endl9f+col10n | +outer -coolin -enl10n+B441 | +outer -inner +ang2co -ang1co -cocil2 -cool2n +endl2n | +outer -inner +ang2co -ang1co -cocil2 -cool4n +endl4n | +outer -inner +ang2co -ang1co -cocil2 -cool6n +endl6n | +outer -inner +ang2co -ang1co -cocil2 -cool8n +endl8n | +outer -inner +ang2co -ang1co -cocil2 -col10n +enl10n | +outer -inner -ang2co +ang1co -cocil1 -cool1f +endl1f | +outer -inner -ang2co +ang1co -cocil1 -cool3f +endl3f | +outer -inner -ang2co +ang1co -cocil1 -cool5f +endl5f | +outer -inner -ang2co +ang1co -cocil1 -cool7f +endl7f | +outer -inner -ang2co +ang1co -cocil1 -cool9f +endl9f | +outer -inner -endl1f +begl2n | +outer -inner -endl2n +begl3f | +outer -inner -endl3f +begl4n | +outer -inner -endl4n +begl5f | +outer -inner -endl5f +begl6n | +outer -inner -endl6n +begl7f | +outer -inner -endl7f +begl8n | +outer -inner -endl8n +begl9f | +outer -inner -endl9f +bel10n | +outer -inner -enl10n +B441 | +coolin -middle -innla +enl10n -cocil1 -cocil2 | +cocil1 -innla +cool1f -middle | +cocil1 -endl1f +cool3f -middle | +cocil1 -endl3f +cool5f -middle | +cocil1 -endl5f +cool7f -middle | +cocil1 -endl7f +cool9f -middle | +cocil1 -endl9f +B441 -middle | +cocil2 -innla +cool2n -middle | +cocil2 -endl2n +cool4n -middle | +cocil2 -endl4n +cool6n -middle | +cocil2 -endl6n +cool8n -middle | +cocil2 -endl8n +col10n -middle | +cocil2 -enl10n +B441 -middle | +middle -inner +ang1 -ang2 -innla +cool1f | +middle -inner +ang1 -ang2 -begl3f +cool3f | +middle -inner +ang1 -ang2 -begl5f +cool5f | +middle -inner +ang1 -ang2 -begl7f +cool7f | +middle -inner +ang1 -ang2 -begl9f +cool9f | +middle -inner -ang1 +ang2 -begl2n +cool2n | +middle -inner -ang1 +ang2 -begl4n +cool4n | +middle -inner -ang1 +ang2 -begl6n +cool6n | +middle -inner -ang1 +ang2 -begl8n +cool8n | +middle -inner -ang1 +ang2 -bel10n +col10n | +middle -inner -ang1co +ang1 -cool1f +endl1f | +middle -inner -ang1co +ang1 -cool3f +endl3f | +middle -inner -ang1co +ang1 -cool5f +endl5f | +middle -inner -ang1co +ang1 -cool7f +endl7f | +middle -inner -ang1co +ang1 -cool9f +endl9f | +middle -inner +ang2co -ang2 -cool1f +endl1f | +middle -inner +ang2co -ang2 -cool3f +endl3f | +middle -inner +ang2co -ang2 -cool5f +endl5f | +middle -inner +ang2co -ang2 -cool7f +endl7f | +middle -inner +ang2co -ang2 -cool9f +endl9f | +middle -inner +ang1co -ang1 -cool2n +endl2n | +middle -inner +ang1co -ang1 -cool4n +endl4n | +middle -inner +ang1co -ang1 -cool6n +endl6n | +middle -inner +ang1co -ang1 -cool8n +endl8n | +middle -inner +ang1co -ang1 -col10n +enl10n | +middle -inner -ang2co +ang2 -cool2n +endl2n | +middle -inner -ang2co +ang2 -cool4n +endl4n | +middle -inner -ang2co +ang2 -cool6n +endl6n | +middle -inner -ang2co +ang2 -cool8n +endl8n | +middle -inner -ang2co +ang2 -col10n +enl10n * box for binning HEBOX 5 heboxx2 -heboxx1 + heboxy2 -heboxy1 + heboxz2 - heboxz1 * Box for scoring HB region HBBOX 5 heboxx2 -heboxx1 +hbboxy2 -hbboxy1 +hbboxz2 -hbboxz1 HFLRACK 5 x2hfrack -x1hfrack +y2hfrack-y1hfrack +z3hfrack -z1hfrack HFURACK 5 x2hfrack -x1hfrack +y4hfrack -y3hfrack +z4hfrack -z2hfrack END * * define region R297N as a replica, with the lattice number 1.0 associated * to be used for roto-traslation number 1 * ________+_________+_________+_________+_________+_________+_________+ *LATTICE R297N 1.0 1.0 1.0Rot# 1 GEOEND * * define the transformation for lattice cell Target2 * rot.numb. theta phi dx dy dz *ROT-DEFI 201. 0.0 180.0 0.0 0.0 0.0 * * ********************************************************************* * --------- ASSIGN MATERIALS, REGION BIASING, EMFCUTs ----------------* * ********************************************************************* * * ________+_________+_________+_________+_________+_________+_________+ ASSIGNMA BLCKHOLE R001 R001 * pipe vacuum ASSIGNMA VACUUM R002 R002 1.0 ASSIGNMA VACUUM R003 R003 1.0 ASSIGNMA VACUUM R004 R004 1.0 ASSIGNMA VACUUM R005 R005 1.0 ASSIGNMA VACUUM R006 R006 1.0 ASSIGNMA VACUUM R007 R007 1. ASSIGNMA VACUUM R008 R008 1. ASSIGNMA VACUUM R009 R009 1.0 * beam pipe ASSIGNMA BERYLLIU R010 R010 1.0 ASSIGNMA ST.STEEL R011 R011 1.0 ASSIGNMA ST.STEEL R012 R012 1.0 ASSIGNMA ST.STEEL R013 R013 1.0 ASSIGNMA ST.STEEL R014 R014 1.0 ASSIGNMA ST.STEEL R015 R015 1.0 ASSIGNMA ST.STEEL R016 R016 1. ASSIGNMA ST.STEEL R017 R017 1.0 ASSIGNMA ST.STEEL R469 R469 1. ASSIGNMA AIR R470 R470 1. * pumping stations ASSIGNMA ST.STEEL R018 R018 1. ASSIGNMA ST.STEEL R019 R019 1. * Air in tracker (R<20.) and forward cone ASSIGNMA AIR R020 R020 1.0 ASSIGNMA AIR R020a R020a 1.0 ASSIGNMA AIR R020b R020b 1.0 ASSIGNMA AIR R020c R020c 1.0 ASSIGNMA AIR R020d R020d 1.0 ASSIGNMA AIR R020e R020e 1.0 * Air around Suplly Tube&Box adjointed with TIB/TOB (20 < R < 23.2) ASSIGNMA TRAIR-AV R020f R020f 1.0 ASSIGNMA TRAIR-AV R020g R020g 1.0 * Air in tracker (R<20.) and forward cone ASSIGNMA AIR R020h R020h 1.0 * ASSIGNMA AIR R021 R021 1.0 ASSIGNMA AIR R022 R022 1.0 ASSIGNMA AIR R023 R023 1.0 * Air in VFCAL and behind (at R<22) ASSIGNMA AIR R024 R024 1. ASSIGNMA AIR R025 R025 1. ASSIGNMA AIR R026 R026 1. ASSIGNMA AIR R027 R027 1. * Air in tracker * At ends ASSIGNMA TRAIR-AV R028 R028 1.0 * between silicon layers ASSIGNMA TRAIR-AV R029 R029 1.0 ASSIGNMA TRAIR-AV R030 R030 1.0 * TIB/TOB and TEC ASSIGNMA TRAIR-AV R031 R031 1.0 * SE support cone ASSIGNMA ALUMINUM R032 R032 1.0 * Barrel pixel detector: * Inner shielding ASSIGNMA BPIX-SH R033a R033a 1.0 * Layer 1 of barrel pixel detector ASSIGNMA BPIX-DET R033 R033 1.0 * Layer 2 of barrel pixel detector ASSIGNMA BPIX-DET R033b R033b 1.0 * Layer 3 of barrel pixel detector ASSIGNMA BPIX-DET R033c R033c 1.0 * Outer shielding ASSIGNMA BPIX-SH R033d R033d 1.0 * Cabels of barrel pixel detector ASSIGNMA BPIX-CAB R033e R033e 1.0 * Endflange of barrel pixel detector ASSIGNMA BPIX-FLG R033f R033f 1.0 * Supply tube C ASSIGNMA SUP-TUBC R033g R033g 1.0 * Supply tube B ASSIGNMA SUP-TUBB R033h R033h 1.0 * Supply tube A ASSIGNMA SUP-TUBA R033i R033i 1.0 * Supply tube & Supply Box ASSIGNMA CARBON-F R033j R033j 1.0 * Forward pixel detector * Outer part of FPIX detector ASSIGNMA FPIX-OUT R034a R034a 1.0 * First FPIX detector ASSIGNMA FPIX-DET R034 R034 1.0 * Internal part of first FPIX detector ASSIGNMA FPIX-IN R034b R034b 1.0 * Outer side of second detector ASSIGNMA FPIX-OUT R034c R034c 1.0 * First FPIX detector ASSIGNMA FPIX-DET R034d R034d 1.0 * Internal side of second detector ASSIGNMA FPIX-IN R034e R034e 1.0 * Service Cylinder for FPIX detector, nu < 2.5 ASSIGNMA FPIX-CYL R034f R034f 1.0 * Service Cylinder for FPIX detector, nu > 2.5 ASSIGNMA SERV-CYL R034g R034g 1.0 * end pixel * strip silicon ASSIGNMA SILICON R035 R035 1.0 ASSIGNMA SILICON R036 R036 1.0 ASSIGNMA SILICON R037 R037 1.0 ASSIGNMA SILICON R038 R038 1.0 * TOB and TEC ASSIGNMA SILICON R039 R039 1.0 ASSIGNMA SILICON R040 R040 1.0 ASSIGNMA SILICON R041 R041 1.0 * Support tubes * foam ASSIGNMA INSU-FOA R042 R042 1.0 * carbon fibre ASSIGNMA CARBON-F R043 R043 1.0 * BARREL between tracker and EB * air around ASSIGNMA TRAIR-AV R044 R044 1.0 * moderator ASSIGNMA POLYETHE R045 R045 1.0 * Aluminium plate to represent cables ASSIGNMA ALUMINUM R046 R046 1.0 * FORWARD preshower * Air ASSIGNMA AIR R047 R047 1.0 ASSIGNMA CoolScr R048 R048 1.0 ASSIGNMA ALUMINUM R048a R048a 1.0 ASSIGNMA LEAD R049 R049 1.0 ASSIGNMA ALUMINUM R050 R050 1.0 ASSIGNMA SILICON R051 R051 1.0 ASSIGNMA ALUMINUM R051a 1. ASSIGNMA G10-PLAT R051b 1. *ASSIGNMA AIR R052 R052 1.0 ASSIGNMA CoolScr R053 R053 1.0 ASSIGNMA ALUMINUM R053a R053a 1.0 ASSIGNMA LEAD R054 R054 1.0 ASSIGNMA ALUMINUM R055 R055 1.0 ASSIGNMA SILICON R056 R056 1.0 ASSIGNMA ALUMINUM R057 1. ASSIGNMA G10-PLAT R057a R057a 1.0 * moderators ASSIGNMA POLYETHE R058 R058 1.0 ASSIGNMA ALUMINUM R058a 1. ASSIGNMA ALUMINUM R058b 1. * ECAL * Air in crack and around barrel ASSIGNMA TRAIR-AV R059 R059 1.0 * ECAL * Air in crack and around barrel ASSIGNMA Ecal_AV R059a R059a 1.0 * ECAL * Air in crack and around barrel ASSIGNMA CABLE-AV R059b R059b 1.0 * PBWO4 ASSIGNMA PBWO4 R060 R060 1.0 ASSIGNMA PBWO4 R061 R061 1.0 * Moderators behind EF ASSIGNMA POLYETHE R062 R062 1.0 * Air behind EF ASSIGNMA TRAIR-AV R063 R063 1.0 * Air in FW cone ASSIGNMA AIR R064a R064a 1.0 ASSIGNMA AIR R064b 1. ASSIGNMA AIR R064c 1. ASSIGNMA AIR R064d 1. ASSIGNMA AIR R064e 1. ASSIGNMA AIR R064f 1. ASSIGNMA AIR R064g 1. * Air in front of VFCAL ASSIGNMA AIR R065 R065 1. ASSIGNMA AIR R066 R066 1. ASSIGNMA AIR R067 R067 1. * BARREL HCAL * scintilators ASSIGNMA SCINTILL R068 R068 1.0 ASSIGNMA SCINTILL R069 R069 1.0 ASSIGNMA SCINTILL R070 R070 1.0 ASSIGNMA SCINTILL R071 R071 1.0 * absorbers ASSIGNMA ST.STEEL R072 R072 1.0 ASSIGNMA BRASS R073 R073 1.0 ASSIGNMA BRASS R074 R074 1.0 ASSIGNMA BRASS R075 R075 1.0 ASSIGNMA BRASS R076 R076 1.0 ASSIGNMA ST.STEEL R077 R077 1.0 * FORWARD HCAL * scintilators ASSIGNMA SCINTILL R078 R078 1.0 ASSIGNMA SCINTILL R079 R079 1.0 ASSIGNMA SCINTILL R080 R080 1.0 ASSIGNMA SCINTILL R081 R081 1.0 ASSIGNMA SCINTILL R082 R082 1.0 ASSIGNMA SCINTILL R083 R083 1.0 ASSIGNMA SCINTILL R084 R084 1.0 * Air behind HE ASSIGNMA AIR R085 R085 1.0 ASSIGNMA AIR R086 R086 1.0 ASSIGNMA AIR R087 R087 1.0 ASSIGNMA AIR R088 R088 1.0 * Air around the VAC-tank ASSIGNMA AIR R089 R089 1.0 ASSIGNMA AIR R090 R090 1.0 * VAC-tank steel ASSIGNMA ST.STEEL R091 R091 1.0 ASSIGNMA ST.STEEL R092 R092 1.0 * VAC-tank vacuum ASSIGNMA VACUUM R093 R093 1.0 ASSIGNMA VACUUM R094 R094 1.0 * Coil ASSIGNMA ALUMINUM R095 R095 1.0 * Tail Catcher ASSIGNMA ST.STEEL R096 R096 1.0 * BARREL YOKE ASSIGNMA YOKE-FE R097 R097 1.0 ASSIGNMA YOKE-FE R099 R099 1.0 ASSIGNMA YOKE-FE R101 R101 1.0 ASSIGNMA YOKE-FE R103 R103 1.0 ASSIGNMA YOKE-FE R105 R105 1.0 ASSIGNMA YOKE-FE R107 R107 1.0 ASSIGNMA YOKE-FE R109 R109 1.0 ASSIGNMA YOKE-FE R111 R111 1.0 ASSIGNMA AIR R098 R098 1.0 ASSIGNMA AIR R100 R100 1.0 ASSIGNMA AIR R102 R102 1.0 ASSIGNMA AIR R104 R104 1.0 ASSIGNMA AIR R106 R106 1.0 ASSIGNMA AIR R108 R108 1.0 ASSIGNMA AIR R110 R110 1.0 ASSIGNMA AIR R112 R112 1.0 * MB1 ASSIGNMA AIR R113 R113 1.0 ASSIGNMA ALUMINUM R114 R114 1.0 ASSIGNMA DTBX-GAS R115 R115 1.0 ASSIGNMA MB-HCOMB R116 R116 1.0 * MB2 ASSIGNMA AIR R117 R117 1.0 ASSIGNMA ALUMINUM R118 R118 1.0 ASSIGNMA DTBX-GAS R119 R119 1.0 ASSIGNMA MB-HCOMB R120 R120 1.0 * MB3 ASSIGNMA AIR R121 R121 1.0 ASSIGNMA ALUMINUM R122 R122 1.0 ASSIGNMA DTBX-GAS R123 R123 1.0 ASSIGNMA MB-HCOMB R124 R124 1.0 * MB4 ASSIGNMA AIR R125 R125 1.0 ASSIGNMA ALUMINUM R126 R126 1.0 ASSIGNMA DTBX-GAS R127 R127 1.0 ASSIGNMA MB-HCOMB R128 R128 1.0 * FORWARD YOKE * Below MF1 ASSIGNMA ST.STEEL R129 R129 1.0 ASSIGNMA ST.STEEL R130 R130 1.0 ASSIGNMA B-POLYET R131 R131 1.0 ASSIGNMA AIR R132 R132 1.0 * Below MF2 ASSIGNMA YOKE-FE R133 R133 1.0 ASSIGNMA YOKE-FE R134 R134 1.0 ASSIGNMA B-POLYET R135 R135 1.0 ASSIGNMA AIR R136 R136 1.0 * Below MF3 ASSIGNMA YOKE-FE R137 R137 1.0 ASSIGNMA YOKE-FE R138 R138 1.0 ASSIGNMA B-POLYET R139 R139 1.0 ASSIGNMA AIR R140 R140 1.0 * Below MF4 ASSIGNMA YOKE-FE R141 R141 1.0 ASSIGNMA YOKE-FE R142 R142 1.0 ASSIGNMA B-POLYET R143 R143 1.0 ASSIGNMA AIR R144 R144 1.0 * Massless gap (now steel) ASSIGNMA YOKE-FE R145 R145 1.0 * NOSE 1 ASSIGNMA YOKE-FE R146 R146 1.0 ASSIGNMA YOKE-FE R147 R147 1.0 ASSIGNMA YOKE-FE R148 R148 1.0 * NOSE 2 ASSIGNMA YOKE-FE R149 R149 1.0 ASSIGNMA YOKE-FE R150 R150 1.0 ASSIGNMA YOKE-FE R151 R151 1.0 * RF1 ASSIGNMA YOKE-FE R152 R152 1.0 ASSIGNMA YOKE-FE R153 R153 1.0 ASSIGNMA YOKE-FE R154 R154 1.0 ASSIGNMA YOKE-FE R155 R155 1.0 ASSIGNMA YOKE-FE R156 R156 1.0 * RF2 ASSIGNMA YOKE-FE R157 R157 1.0 ASSIGNMA YOKE-FE R158 R158 1.0 ASSIGNMA YOKE-FE R159 R159 1.0 ASSIGNMA YOKE-FE R160 R160 1.0 ASSIGNMA YOKE-FE R161 R161 1.0 * RF 3 ASSIGNMA YOKE-FE R162 R162 1.0 ASSIGNMA YOKE-FE R163 R163 1.0 ASSIGNMA YOKE-FE R164 R164 1.0 ASSIGNMA YOKE-FE R165 R165 1.0 * the fillings to eta=3.0 ASSIGNMA POLYETHE R166 R166 1.0 ASSIGNMA POLYETHE R167 R167 1.0 ASSIGNMA POLYETHE R168 R168 1.0 ASSIGNMA POLYETHE R169 R169 1.0 ASSIGNMA POLYETHE R170 R170 1.0 ASSIGNMA POLYETHE R171 R171 1.0 ASSIGNMA POLYETHE R172 R172 1.0 ASSIGNMA POLYETHE R173 R173 1.0 * ** MF1 ASSIGNMA AIR R174 R174 1.0 ASSIGNMA BAKELITE R175 R175 1.0 ASSIGNMA RPC-GFW R176 R176 1.0 ASSIGNMA MF-HCOMB R177 R177 1.0 ASSIGNMA CSC-GAS R178 R178 1.0 * ** MF1A ASSIGNMA AIR R179 R179 1.0 ASSIGNMA BAKELITE R180 R180 1.0 ASSIGNMA RPC-GFW R181 R181 1.0 ASSIGNMA MF-HCOMB R182 R182 1.0 ASSIGNMA CSC-GAS R183 R183 1.0 * ** MF1B ASSIGNMA AIR R184 R184 1.0 ASSIGNMA BAKELITE R185 R185 1.0 ASSIGNMA RPC-GFW R186 R186 1.0 ASSIGNMA MF-HCOMB R187 R187 1.0 ASSIGNMA CSC-GAS R188 R188 1.0 * ** MF2 ASSIGNMA AIR R189 R189 1.0 ASSIGNMA BAKELITE R190 R190 1.0 ASSIGNMA RPC-GFW R191 R191 1.0 ASSIGNMA MF-HCOMB R192 R192 1.0 ASSIGNMA CSC-GAS R193 R193 1.0 ASSIGNMA AIR R194 R194 1.0 ASSIGNMA BAKELITE R195 R195 1.0 ASSIGNMA RPC-GFW R196 R196 1.0 ASSIGNMA MF-HCOMB R197 R197 1.0 ASSIGNMA CSC-GAS R198 R198 1.0 * ** MF3 ASSIGNMA AIR R199 R199 1.0 ASSIGNMA BAKELITE R200 R200 1.0 ASSIGNMA RPC-GFW R201 R201 1.0 ASSIGNMA MF-HCOMB R202 R202 1.0 ASSIGNMA CSC-GAS R203 R203 1.0 ASSIGNMA AIR R204 R204 1.0 ASSIGNMA BAKELITE R205 R205 1.0 ASSIGNMA RPC-GFW R206 R206 1.0 ASSIGNMA MF-HCOMB R207 R207 1.0 ASSIGNMA CSC-GAS R208 R208 1.0 * ** MF4 ASSIGNMA AIR R209 R209 1.0 ASSIGNMA AIR R210 R210 1.0 ASSIGNMA RPC-GFW R211 R211 1.0 ASSIGNMA MF-HCOMB R212 R212 1.0 ASSIGNMA CSC-GAS R213 R213 1.0 ASSIGNMA AIR R214 R214 1.0 ASSIGNMA AIR R215 R215 1.0 ASSIGNMA RPC-GFW R216 R216 1.0 ASSIGNMA MF-HCOMB R217 R217 1.0 ASSIGNMA CSC-GAS R218 R218 1.0 * ** MF4 wall *ASSIGNMA ACCUR-FE R219 1.0 ASSIGNMA YOKE-FE R219 R219 1.0 * ** MF4 wall *ASSIGNMA ACCUR-FE R219 1.0 ASSIGNMA AIR R219a R219a 1.0 ASSIGNMA B-POLYET R220 R220 1.0 * ** VFCAL moderator ASSIGNMA POLYETHE R221 R221 1.0 * ** Interface between endcap and HV ASSIGNMA B-POLYET R222 R222 1. ASSIGNMA B-POLYET R223 R223 1. ASSIGNMA AIR R224 R224 1. ASSIGNMA YOKE-FE R225 R225 1. ASSIGNMA YOKE-FE R226 R226 1. ASSIGNMA YOKE-FE R227 R227 1. ASSIGNMA AIR R228 R228 1. ASSIGNMA AIR R229 R229 1. * ** HV lowest row ASSIGNMA HV-AVE R230 R230 1. ASSIGNMA HV-AVE R231 R231 1. ASSIGNMA AIR R232 R232 1. * ** HV second row ASSIGNMA HV-AVE R233 R233 1. ASSIGNMA HV-AVE R234 R234 1. ASSIGNMA HV-AVE R235 R235 1. ASSIGNMA HV-AVE R236 R236 1. ASSIGNMA AIR R237 R237 1. ASSIGNMA AIR R238 R238 1. * ** HV third row ASSIGNMA HV-AVE R238 R238 1. ASSIGNMA HV-AVE R239 R239 1. ASSIGNMA HV-AVE R240 R240 1. ASSIGNMA HV-AVE R241 R241 1. ASSIGNMA AIR R242 R242 1. * ** HV fourth row ASSIGNMA HV-AVE R243 R243 1. ASSIGNMA HV-AVE R244 R244 1. ASSIGNMA HV-AVE R245 R245 1. ASSIGNMA HV-AVE R246 R246 1. ASSIGNMA AIR R247 R247 1. * *** shielding of PMs at the back ASSIGNMA YOKE-FE R248 R248 1. ASSIGNMA B-POLYET R249 R249 1. ASSIGNMA LEAD R250 R250 1. ASSIGNMA GLASS R251 R251 1. * ** HV shielding lowest back ASSIGNMA YOKE-FE R252 R252 1. ASSIGNMA YOKE-FE R253 R253 1. * ** HV shielding second back ASSIGNMA YOKE-FE R254 R254 1. ASSIGNMA YOKE-FE R255 R255 1. * ** HV shielding third back ASSIGNMA MGN-CON2 R256 R256 1. ASSIGNMA MGN-CON2 R257 R257 1. ASSIGNMA MGN-CON2 R258 R258 1. * ** HV shielding fourth row back and above ASSIGNMA YOKE-FE R259 R259 1. ASSIGNMA YOKE-FE R260 R260 1. ASSIGNMA YOKE-FE R261 R261 1. ASSIGNMA BOR-CONC R262 R262 1. ASSIGNMA BOR-CONC R263 R263 1. ASSIGNMA BOR-CONC R264 R264 1. ASSIGNMA AIR R265 R265 1. ASSIGNMA BOR-CONC R266 R266 1. ASSIGNMA AIR R267 R267 1. ASSIGNMA AIR R268 R268 1. * ** iron around collimator ASSIGNMA YOKE-FE R269 R269 1. ASSIGNMA YOKE-FE R270 R270 1. ASSIGNMA YOKE-FE R271 R271 1. ASSIGNMA YOKE-FE R272 R272 1. * ** Air gap in collimator shield ASSIGNMA AIR R273 R273 1. * ** Thin shield ASSIGNMA YOKE-FE R274 R274 1. ASSIGNMA YOKE-FE R275 R275 1. ASSIGNMA BOR-CONC R276 R276 1. ASSIGNMA BOR-CONC R277 R277 1. ASSIGNMA BOR-CONC R278 R278 1. ASSIGNMA AIR R279 R279 1. * ** Thick shield and joining cone ASSIGNMA BOR-CONC R280 R280 1. ASSIGNMA BOR-CONC R281 R281 1. ASSIGNMA BOR-CONC R282 R282 1. ASSIGNMA BOR-CONC R283 R283 1. ASSIGNMA BOR-CONC R284 R284 1. ASSIGNMA AIR R285 R285 1. ASSIGNMA BOR-CONC R397 R397 1. ASSIGNMA MGN-CON2 R398 R398 1. ASSIGNMA MGN-CON2 R419 R419 1. ASSIGNMA MGN-CON2 R420 R420 1. ASSIGNMA MGN-CON2 R421 R421 1. ASSIGNMA MGN-CON2 R422 R422 1. ASSIGNMA MGN-CON2 R423 R423 1. * ** Block house ASSIGNMA CONCRETE R286 R286 1. ASSIGNMA CONCRETE R287 R287 1. ASSIGNMA CONCRETE R288 R288 1. ASSIGNMA CONCRETE R289 R289 1. ASSIGNMA CONCRETE R290 R290 1. ASSIGNMA CONCRETE R291 R291 1. ASSIGNMA CONCRETE R292 R292 1. * ** Air in hall ASSIGNMA AIR R293 R293 1. ASSIGNMA AIR R294 R294 1.0 ASSIGNMA AIR R425 R425 1. ASSIGNMA AIR R424 R424 1.0 * ** Surface layer of hall wall ASSIGNMA CONCRETE R295 R295 1. ASSIGNMA CONCRETE R296 R296 1. * ** Bulk of hall wall ASSIGNMA CONCRETE R297 R297 1. * ** Air in front part of VFCAL ASSIGNMA AIR R298 R298 1. * ** Air in Block house ASSIGNMA AIR R299 R299 1. ASSIGNMA AIR R300 R300 1. * ** Collimator ASSIGNMA COPPER R301 R301 1. * ** Q1 ASSIGNMA ST.STEEL R302 R302 1.0 * ** surface for chambers ASSIGNMA ACCUR-FE R303 R303 1.0 ASSIGNMA ACCUR-FE R304 R304 1.0 ASSIGNMA ACCUR-FE R305 R305 1.0 ASSIGNMA ACCUR-FE R306 R306 1.0 ASSIGNMA ACCUR-FE R307 R307 1.0 ASSIGNMA ACCUR-FE R308 R308 1.0 ASSIGNMA ACCUR-FE R309 R309 1.0 ASSIGNMA ACCUR-FE R310 R310 1.0 ASSIGNMA ACCUR-FE R311 R311 1.0 ASSIGNMA ACCUR-FE R312 R312 1.0 ASSIGNMA ACCUR-FE R313 R313 1.0 ASSIGNMA ACCUR-FE R314 R314 1.0 ASSIGNMA ACCUR-FE R315 R315 1.0 ASSIGNMA ACCUR-FE R316 R316 1.0 ASSIGNMA ACCUR-FE R317 R317 1.0 ASSIGNMA ACCUR-FE R318 R318 1.0 ASSIGNMA ACCUR-FE R319 R319 1.0 ASSIGNMA ACCUR-FE R320 R320 1.0 * *** pentraprism ring and its air surroundings ASSIGNMA AIR R321 R321 1.0 ASSIGNMA AIR R322 R322 1.0 * *** MB1 RPC:s ASSIGNMA BAKELITE R323 R323 1.0 ASSIGNMA RPC-GBA R324 R324 1.0 * *** MB2 RPC:s ASSIGNMA BAKELITE R325 R325 1.0 ASSIGNMA RPC-GBA R326 R326 1.0 * *** MB3 RPC:s ASSIGNMA BAKELITE R327 R327 1.0 ASSIGNMA RPC-GBA R328 R328 1.0 * *** MB4 RPC:s ASSIGNMA BAKELITE R329 R329 1.0 ASSIGNMA RPC-GBA R330 R330 1.0 * *** APD positions (fill with Al-hcomb) ASSIGNMA Ecal_AV R331 R331 1.0 ASSIGNMA MB-HCOMB R332 R332 1.0 * *** cable bundles at end of barrel ASSIGNMA CABLE-AV R333 R333 1.0 ASSIGNMA AIR R334 R334 1.0 ASSIGNMA CABLE-AV R335 R335 1.0 * *** the lead below forward chambers * below MF1 ASSIGNMA LEAD R336 R336 1.0 * below MF2 ASSIGNMA LEAD R337 R337 1.0 * below MF3 ASSIGNMA LEAD R338 R338 1.0 * below MF4 ASSIGNMA LEAD R339 R339 1.0 * air in clearance z=1800-1805 ASSIGNMA AIR R340 R340 1. ASSIGNMA AIR R341 R341 1. ASSIGNMA AIR R342 R342 1. * air in the crack between HV back and thin shield ASSIGNMA AIR R343 R343 1. ASSIGNMA AIR R344 R344 1. ASSIGNMA AIR R345 R345 1. ASSIGNMA AIR R346 R346 1. ASSIGNMA AIR R347 R347 1. ASSIGNMA AIR R348 R348 1. * air between endcap and HV shielding ASSIGNMA AIR R349 R349 1. ASSIGNMA AIR R350 R350 1. ASSIGNMA AIR R351 R351 1. ASSIGNMA AIR R352 R352 1. * PE behind HV ASSIGNMA B-POLYET R353 R353 1. * iron in that PE ASSIGNMA YOKE-FE R354 R354 1. ASSIGNMA YOKE-FE R355 R355 1. ASSIGNMA YOKE-FE R356 R356 1. * borated PE to protect HV phototubes ASSIGNMA B-POLYET R357 R357 1. ASSIGNMA B-POLYET R358 R358 1. * substrate of first MSGC layer ASSIGNMA GLASS R359 R359 1.0 * ** HV shielding third back, only the PE ASSIGNMA B-POLYET R360 R360 1. * *** transition plug, HF shielding-thin shielding ASSIGNMA AIR R468 R468 1. ASSIGNMA YOKE-FE R361 R361 1. ASSIGNMA YOKE-FE R362 R362 1. ASSIGNMA BOR-CONC R363 R363 1. ASSIGNMA BOR-CONC R364 R364 1. ASSIGNMA BOR-CONC R365 R365 1. ASSIGNMA AIR R366 R366 1. * support from HF shielding to HF plug ASSIGNMA YOKE-FE R367 R367 1. * clearance below HF-PM shield ASSIGNMA AIR R368 R368 1. ASSIGNMA AIR R369 R369 1. * absorbers ASSIGNMA BRASS R370 R370 1.0 ASSIGNMA BRASS R371 R371 1.0 ASSIGNMA BRASS R372 R372 1.0 ASSIGNMA BRASS R373 R373 1.0 ASSIGNMA BRASS R374 R374 1.0 ASSIGNMA BRASS R375 R375 1.0 ASSIGNMA BRASS R376 R376 1.0 * Steel back of HE ASSIGNMA ST.STEEL R377 R377 1.0 ASSIGNMA ST.STEEL R378 R378 1.0 ASSIGNMA ST.STEEL R379 R379 1.0 ASSIGNMA ST.STEEL R380 R380 1.0 * Volume in HB/HE crack ASSIGNMA CABLE-AV R381 R381 1.0 * HPD boxes ASSIGNMA HPD-BOX R382 R382 1.0 ASSIGNMA HPD-BOX R383 R383 1.0 * air around HF shield (spectral scoring) ASSIGNMA AIR R384 R384 1. * skins in ME chamber CSC:s ASSIGNMA G10-PLAT R385 R385 1.0 ASSIGNMA G10-PLAT R386 R386 1.0 ASSIGNMA G10-PLAT R387 R387 1.0 ASSIGNMA G10-PLAT R388 R388 1.0 ASSIGNMA G10-PLAT R389 R389 1.0 ASSIGNMA G10-PLAT R390 R390 1.0 ASSIGNMA G10-PLAT R391 R391 1.0 ASSIGNMA G10-PLAT R392 R392 1.0 ASSIGNMA G10-PLAT R393 R393 1.0 * Air behind EF ASSIGNMA TRAIR-AV R394 R394 1.0 * *** APD positions (fill with Al-hcomb) ASSIGNMA ALUMINUM R395 R395 1.0 * Air behind EF ASSIGNMA POLYETHE R396 R396 1.0 * block at z=2170-2265 ASSIGNMA CONCRETE R399 R399 1. * air in this block at z=2170-2265 ASSIGNMA MGN-CON2 R400 R400 1. * fillings at z=2170-2265 ASSIGNMA CONCRETE R401 R401 1. * lid structure z=2115-2170 ASSIGNMA BOR-CONC R402 R402 1. ASSIGNMA BOR-CONC R403 R403 1. * air in this structure ASSIGNMA AIR R404 R404 1. * lid structure z=2115-2170 ASSIGNMA BOR-CONC R405 R405 1. ASSIGNMA BOR-CONC R406 R406 1. * lids of block house ASSIGNMA CONCRETE R407 R407 1. * holes for support of iron nose ASSIGNMA MGN-CON2 R408 R408 1. * holes in upper lid ASSIGNMA CONCRETE R409 R409 1. * ** Q1 outer shell ASSIGNMA ST.STEEL R410 R410 1. * ** Q1 material in front (rough guess) ASSIGNMA MB-HCOMB R411 R411 1. * ** Q1 around cold mass (rough guess) ASSIGNMA MF-HCOMB R412 R412 1. * ** Spectra scoring air volumes in hall hall ASSIGNMA AIR R413 R413 1. ASSIGNMA AIR R414 R414 1. ASSIGNMA AIR R416 R416 1. ASSIGNMA AIR R417 R417 1. ASSIGNMA AIR R418 R418 1. * ** Support jacks for TAS ASSIGNMA AIR R426 R426 1. ASSIGNMA AIR R427 R427 1. ASSIGNMA AIR R428 R428 1. ASSIGNMA AIR R429 R429 1. * *** holes to support jacks ASSIGNMA AIR R430 R430 1. ASSIGNMA AIR R431 R431 1. ASSIGNMA AIR R432 R432 1. ASSIGNMA MGN-CON2 R433 R433 1. ASSIGNMA MGN-CON2 R434 R434 1. ASSIGNMA MGN-CON2 R435 R435 1. ASSIGNMA MGN-CON2 R436 R436 1. * ** Central plate in ME1/1 ASSIGNMA ALUMINUM R437 R437 1.0 * BELLOWS ASSIGNMA BELLOW R438 R438 1.0 ASSIGNMA BELLOW R471 R471 1. * Air between Barrel pixel layers and Forward pixel detectors * Air between inner shielding and pixel layer 1 ASSIGNMA AIR R439a R439a 1.0 * Air between pixel layer 1 and pixel layer 2 ASSIGNMA AIR R439 R439 1.0 * Air between pixel layer 2 and pixel layer 3 ASSIGNMA AIR R440 R440 1.0 * Air between pixel layer 3 and outer shielding ASSIGNMA AIR R440a R440a 1.0 * Air between enflange and first forward pixel ASSIGNMA AIR R441 R441 1.0 * Air between FPIX1 and FPIX2 ASSIGNMA AIR R442 R442 1.0 * Air downstream FPIX2 ASSIGNMA AIR R443 R443 1.0 * end air for pixel ASSIGNMA TRAIR-AV R444 R444 1.0 ASSIGNMA TRAIR-AV R445 R445 1.0 ASSIGNMA TRAIR-AV R446 R446 1.0 ASSIGNMA TRAIR-AV R447 R447 1.0 ASSIGNMA TRAIR-AV R448 R448 1.0 ASSIGNMA TRAIR-AV R449 R449 1.0 ASSIGNMA TRAIR-AV R450 R450 1.0 ASSIGNMA TRAIR-AV R451 R451 1.0 ASSIGNMA TRAIR-AV R452 R452 1.0 ASSIGNMA TRAIR-AV R453 R453 1.0 ASSIGNMA TRAIR-AV R454 R454 1.0 ASSIGNMA TRAIR-AV R455 R455 1.0 ASSIGNMA TRAIR-AV R456 R456 1.0 ASSIGNMA TRAIR-AV R457 R457 1.0 ASSIGNMA TRAIR-AV R458 R458 1.0 ASSIGNMA TRAIR-AV R459 R459 1.0 ASSIGNMA TRAIR-AV R460 R460 1.0 ASSIGNMA TRAIR-AV R461 R461 1.0 * TOB end-flange ASSIGNMA ALUMINUM R462 R462 1.0 * additional layers in HF plug ASSIGNMA B-POLYET R463 R463 1. ASSIGNMA LEAD R464 R464 1. ASSIGNMA LEAD R465 R465 1. ASSIGNMA LEAD R466 R466 1. * CASTOR plus ASSIGNMA AIR R467 1. ASSIGNMA AIR R467a 1. * CASTOR minus ASSIGNMA AIR R467m 1. ASSIGNMA AIR R467am 1. * Permanent bakeout equipment ASSIGNMA AIR R472 R472 1. * TK TOB endflange and TEC endflange ASSIGNMA ALUMINUM R473 R473 1.0 ASSIGNMA TRAIR-AV R474 R474 1.0 ASSIGNMA TRAIR-AV R475 R475 1.0 ASSIGNMA TRAIR-AV R476 R476 1.0 ASSIGNMA TRAIR-AV R477 R477 1.0 ASSIGNMA TRAIR-AV R478 R478 1.0 ASSIGNMA TRAIR-AV R479 R479 1.0 ASSIGNMA CONCRETE R480 1. ASSIGNMA CONCRETE R481 1. ASSIGNMA AIR R482 R482 1. * shaft definition, materials set via usrmed --> temporarily removed ASSIGNMA AIR R483 0.0 ASSIGNMA CONCRETE R484 0.0 ASSIGNMA AIR R485 0.0 ASSIGNMA AIR R486 0.0 ASSIGNMA ST.STEEL R487 1. * BSC1 ASSIGNMA SCINTILL R488 1. * BSC1 ASSIGNMA SCINTILL R489 1. * BSC1 ASSIGNMA SCINTILL R490 1. ASSIGNMA YOKE-FE R491 1. ASSIGNMA YOKE-FE R492 1. ASSIGNMA YOKE-FE R493 1. ASSIGNMA YOKE-FE R494 1. ASSIGNMA YOKE-FE R495 1. ASSIGNMA YOKE-FE R496 1. ASSIGNMA YOKE-FE R497 1. ASSIGNMA YOKE-FE R498 1. ASSIGNMA YOKE-FE R499 1. ASSIGNMA AIR R500 1. ASSIGNMA AIR R501 1. ASSIGNMA AIR R502 1. ASSIGNMA CONCRETE R503 1. ASSIGNMA AIR R503a 1. ASSIGNMA AIR R503b 1. ASSIGNMA ST.STEEL R504 1. ASSIGNMA MF-HCOMB R505 1. ASSIGNMA ST.STEEL R506 1. ASSIGNMA VACUUM R507 1. ASSIGNMA ST.STEEL R507a 1. ASSIGNMA MB-HCOMB R508 1. ASSIGNMA ST.STEEL R509 1. ASSIGNMA AIR R510 1. ASSIGNMA HINGE_AV R511 1. ASSIGNMA MGN-CON2 R512 1. ASSIGNMA MGN-CON2 R513 1. ASSIGNMA BOR-CONC R514 1. ASSIGNMA CONCRETE R516 1. ASSIGNMA MGN-CON2 R517 1. ASSIGNMA YOKE-FE R518 1. ASSIGNMA MGN-CON2 R519 1. ASSIGNMA ST.STEEL R520 1. * T1 Layer1 Ring ASSIGNMA ALUMINUM R521 1. * T1 Layer2 Ring ASSIGNMA ALUMINUM R522 1. * T1 Layer3 Ring ASSIGNMA ALUMINUM R523 1. * T1 Layer4 Ring ASSIGNMA ALUMINUM R524 1. * T1 Layer5 Ring ASSIGNMA ALUMINUM R525 1. * T1 Layer6 Ring ASSIGNMA ALUMINUM R526 1. * T1 support structure ASSIGNMA ALUMINUM R526a R526a 1. * T1 Layer 1 Detector ASSIGNMA T1CSCavg R527 1. * T1 Layer 2 Detector ASSIGNMA T1CSCavg R528 1. * T1 Layer 3 Detector ASSIGNMA T1CSCavg R529 1. * T1 Layer 4 Detector ASSIGNMA T1CSCavg R530 1. * T1 Layer 5 Detector ASSIGNMA T1CSCavg R531 1. * T1 Layer 6Detector ASSIGNMA AIR R532 1. ASSIGNMA T1Electr R533 1. ASSIGNMA T1Metal R534 1. * * TOTEM T2 * ---------------- ASSIGNMA AIR T2AIR 1. ASSIGNMA T2-GEM T2L1 1. ASSIGNMA COOLRING T2L1OUT 1. ASSIGNMA T2-GEM T2L2 1. ASSIGNMA COOLRING T2L2OUT 1. ASSIGNMA T2-GEM T2L3 1. ASSIGNMA COOLRING T2L3OUT 1. ASSIGNMA T2-GEM T2L4 1. ASSIGNMA COOLRING T2L4OUT 1. ASSIGNMA T2-GEM T2L5 1. ASSIGNMA COOLRING T2L5OUT 1. ASSIGNMA T2-GEM T2L6 1. ASSIGNMA COOLRING T2L6OUT 1. ASSIGNMA T2-GEM T2L7 1. ASSIGNMA COOLRING T2L7OUT 1. ASSIGNMA T2-GEM T2L8 1. ASSIGNMA COOLRING T2L8OUT 1. ASSIGNMA T2-GEM T2L9 1. ASSIGNMA COOLRING T2L9OUT 1. ASSIGNMA T2-GEM T2L10 1. ASSIGNMA COOLRING T2L10OUT 1. ASSIGNMA 11THCARD CARD1 1. ASSIGNMA 11THCARD CARD2 1. ASSIGNMA ST.STEEL SUPPBA1 1. ASSIGNMA AIR SUPPBIN1 1. ASSIGNMA ST.STEEL SUPPBA2 1. ASSIGNMA AIR SUPPBIN2 1. ASSIGNMA ST.STEEL SUPPBA3 1. ASSIGNMA AIR SUPPBIN3 1. ASSIGNMA ST.STEEL SUPPBA4 1. ASSIGNMA AIR SUPPBIN4 1. ASSIGNMA ST.STEEL LEG1 1. ASSIGNMA ST.STEEL LEG2 1. ASSIGNMA ALUMINUM T2L1CIL1 1. ASSIGNMA ALUMINUM T2L3CIL1 1. ASSIGNMA ALUMINUM T2L5CIL1 1. ASSIGNMA ALUMINUM T2L7CIL1 1. ASSIGNMA ALUMINUM T2L9CIL1 1. ASSIGNMA ALUMINUM T2L2CIL2 1. ASSIGNMA ALUMINUM T2L4CIL2 1. ASSIGNMA ALUMINUM T2L6CIL2 1. ASSIGNMA ALUMINUM T2L8CIL2 1. ASSIGNMA ALUMINUM T2L10CI2 1. * * Regions for Diamond Detectors * ----------------------------- ASSIGNMA DIAMOND RBCM2o 0.0 ASSIGNMA DIAMOND RBCM2i 0.0 ASSIGNMA ALUMINUM RBCM2W 1. ASSIGNMA DIAMOND RBCM1F 0.0 ASSIGNMA DIAMOND RBCM1L 0.0 *ASSIGNMA AIR R534TK1 R534TK1 1. ASSIGNMA TRAIR-AV TKspect2 TKspect2 1. *ASSIGNMA AIR R534TK3 R534TK3 1. ASSIGNMA TRAIR-AV TKspect4 TKspect4 1. ASSIGNMA TRAIR-AV TKspect5 TKspect5 1. ASSIGNMA VACUUM R297N ASSIGNMA HPD-BOX HEBOX ASSIGNMA HPD-BOX HBBOX ASSIGNMA ALUMINUM HFLRACK 1. ASSIGNMA ALUMINUM HFURACK 1. EMFCUT -3E-05 3E-06 0.0 R001 @LASTREG EMFCUT -0.0001 3E-05 0.0 R002 EMFCUT -0.0001 3E-05 0.0 R003 EMFCUT -0.0001 3E-05 0.0 R004 EMFCUT -0.0001 3E-05 0.0 R005 EMFCUT -0.0001 3E-05 0.0 R006 EMFCUT -0.0001 3E-05 0.0 R007 EMFCUT -0.0001 3E-05 0.0 R008 EMFCUT -0.0001 3E-05 0.0 R009 EMFCUT -0.0001 3E-05 0.0 R010 R017 EMFCUT -0.0003 0.0001 0.0 R018 R019 EMFCUT -0.0001 3E-05 0.0 R020 R023 EMFCUT -0.0001 3E-05 0.0 R024 R027 EMFCUT -0.0001 3E-05 0.0 R028 R030 EMFCUT -0.0001 3E-05 0.0 R031 EMFCUT -0.0001 3E-05 0.0 R032 EMFCUT -0.0001 3E-05 0.0 R033 R038 EMFCUT -0.0001 3E-05 0.0 R039 R041 EMFCUT -0.0001 3E-05 0.0 R042 R043 EMFCUT -0.0003 0.0001 0.0 R044 EMFCUT -0.0003 0.0001 0.0 R045 EMFCUT -0.0003 0.0001 0.0 R046 EMFCUT -0.0003 0.0001 0.0 R047 R057a EMFCUT -0.0003 0.0001 0.0 R058 R058b EMFCUT -0.0003 0.0001 0.0 R059 EMFCUT -0.0003 0.0001 0.0 R060 R061 EMFCUT -0.0003 0.0001 0.0 R062 R063 EMFCUT -0.0003 0.0001 0.0 R064a EMFCUT -0.0003 0.0001 0.0 R488 EMFCUT -0.0003 0.0001 0.0 R489 EMFCUT -0.0003 0.0001 0.0 R490 EMFCUT -0.0001 3E-05 0.0 R064a R067 EMFCUT -0.0003 0.0001 0.0 R068 R071 EMFCUT -0.0003 0.0001 0.0 R072 R077 EMFCUT -0.0003 0.0001 0.0 R078 R084 EMFCUT -0.0003 0.0001 0.0 R085 R088 EMFCUT -0.0003 0.0001 0.0 R089 R090 EMFCUT -0.0003 0.0001 0.0 R091 R092 EMFCUT -0.0003 0.0001 0.0 R093 R094 EMFCUT -0.0003 0.0001 0.0 R095 EMFCUT -0.0001 3E-05 0.0 R096 EMFCUT -0.0001 3E-05 0.0 R097 R112 EMFCUT -0.0001 3E-05 0.0 R113 R117 EMFCUT -0.0001 3E-05 0.0 R117 R120 EMFCUT -0.0001 3E-05 0.0 R121 R124 EMFCUT -0.0001 3E-05 0.0 R125 R128 EMFCUT -0.001 0.0003 0.0 R129 EMFCUT -0.0003 0.0001 0.0 R130 EMFCUT -0.0001 3E-05 0.0 R131 R132 EMFCUT -0.001 0.0003 0.0 R133 EMFCUT -0.0003 0.0001 0.0 R134 EMFCUT -0.0001 3E-05 0.0 R135 R136 EMFCUT -0.001 0.0003 0.0 R137 EMFCUT -0.0003 0.0001 0.0 R138 EMFCUT -0.0001 3E-05 0.0 R139 R140 EMFCUT -0.001 0.0003 0.0 R141 EMFCUT -0.0003 0.0001 0.0 R142 EMFCUT -0.0001 3E-05 0.0 R143 R144 EMFCUT -0.0003 0.0001 0.0 R145 EMFCUT -0.0003 0.0001 0.0 R146 R148 EMFCUT -0.001 0.0003 0.0 R149 R150 EMFCUT -0.0003 0.0001 0.0 R151 EMFCUT -0.001 0.0003 0.0 R152 R154 EMFCUT -0.0003 0.0001 0.0 R155 R156 EMFCUT -0.001 0.0003 0.0 R157 R159 EMFCUT -0.0003 0.0001 0.0 R160 R161 EMFCUT -0.001 0.0003 0.0 R162 R163 EMFCUT -0.0003 0.0001 0.0 R164 R165 EMFCUT -0.0003 0.0001 0.0 R166 R173 EMFCUT -0.0001 3E-05 0.0 R174 R178 EMFCUT -0.0001 3E-05 0.0 R179 R183 EMFCUT -0.0001 3E-05 0.0 R184 R188 EMFCUT -0.0001 3E-05 0.0 R189 R193 EMFCUT -0.0001 3E-05 0.0 R194 R198 EMFCUT -0.0001 3E-05 0.0 R199 R203 EMFCUT -0.0001 3E-05 0.0 R204 R208 EMFCUT -0.0001 3E-05 0.0 R209 R213 EMFCUT -0.0001 3E-05 0.0 R214 R218 EMFCUT -0.0001 3E-05 0.0 R219 R220 EMFCUT -0.001 0.0003 0.0 R221 EMFCUT -0.0003 0.0001 0.0 R222 EMFCUT -0.0001 3E-05 0.0 R223 R224 EMFCUT -0.0003 0.0001 0.0 R225 R229 EMFCUT -0.0003 0.0001 0.0 R230 EMFCUT -0.0003 0.0001 0.0 R231 EMFCUT -0.0001 3E-05 0.0 R232 EMFCUT -0.0003 0.0001 0.0 R233 R234 EMFCUT -0.0003 0.0001 0.0 R235 EMFCUT -0.0001 3E-05 0.0 R236 R238 EMFCUT -0.0003 0.0001 0.0 R238 R239 EMFCUT -0.0003 0.0001 0.0 R240 EMFCUT -0.0001 3E-05 0.0 R241 R242 EMFCUT -0.0003 0.0001 0.0 R243 R244 EMFCUT -0.0003 0.0001 0.0 R245 EMFCUT -0.0001 3E-05 0.0 R246 R247 EMFCUT -0.0001 3E-05 0.0 R248 R251 EMFCUT -0.0003 0.0001 0.0 R252 R253 EMFCUT -0.0003 0.0001 0.0 R254 R255 EMFCUT -0.0001 3E-05 0.0 R256 R258 EMFCUT -0.0003 0.0001 0.0 R259 R264 EMFCUT -0.0001 3E-05 0.0 R265 R268 EMFCUT -0.003 0.001 0.0 R269 R272 EMFCUT -0.0001 3E-05 0.0 R273 EMFCUT -0.0001 3E-05 0.0 R274 R275 EMFCUT -0.0003 0.0001 0.0 R276 R277 EMFCUT -0.0001 3E-05 0.0 R278 EMFCUT -0.0001 3E-05 0.0 R279 EMFCUT -0.003 0.001 0.0 R280 R281 EMFCUT -0.001 0.0003 0.0 R282 EMFCUT -0.0003 0.0001 0.0 R283 EMFCUT -0.0001 3E-05 0.0 R284 R285 EMFCUT -0.003 0.001 0.0 R397 R398 EMFCUT -0.003 0.001 0.0 R419 R420 EMFCUT -0.001 0.0003 0.0 R421 EMFCUT -0.0003 0.0001 0.0 R422 EMFCUT -0.0001 3E-05 0.0 R423 EMFCUT -0.003 0.001 0.0 R286 R289 EMFCUT -0.001 0.0003 0.0 R290 EMFCUT -0.0003 0.0001 0.0 R291 EMFCUT -0.0001 3E-05 0.0 R292 EMFCUT -0.0001 3E-05 0.0 R293 R294 EMFCUT -0.0001 3E-05 0.0 R482 EMFCUT -0.0001 3E-05 0.0 R424 R425 EMFCUT -0.0003 0.0001 0.0 R295 EMFCUT -0.0001 3E-05 0.0 R296 EMFCUT -0.0001 3E-05 0.0 R485 EMFCUT -0.0001 3E-05 0.0 R480 EMFCUT -0.001 0.0003 0.0 R297 EMFCUT -0.001 0.0003 0.0 R481 EMFCUT -0.001 0.0003 0.0 R484 EMFCUT -0.0001 3E-5 0.0 R486 EMFCUT -0.0001 3E-5 0.0 R483 EMFCUT -0.0001 3E-05 0.0 R298 EMFCUT -0.001 0.0003 0.0 R299 R300 EMFCUT -0.01 0.003 0.0 R301 EMFCUT -0.003 0.001 0.0 R302 EMFCUT -0.0001 3E-05 0.0 R303 R320 EMFCUT -0.0003 0.0001 0.0 R321 R322 EMFCUT -0.0001 3E-05 0.0 R323 R324 EMFCUT -0.0001 3E-05 0.0 R325 R326 EMFCUT -0.0001 3E-05 0.0 R327 R328 EMFCUT -0.0001 3E-05 0.0 R329 R330 EMFCUT -0.0001 3E-05 0.0 R331 R332 EMFCUT -0.0001 3E-05 0.0 R333 R335 EMFCUT -0.0001 3E-05 0.0 R336 R339 EMFCUT -0.001 0.0003 0.0 R340 R342 EMFCUT -0.0003 0.0001 0.0 R343 R344 EMFCUT -0.0003 0.0001 0.0 R345 EMFCUT -0.0003 0.0001 0.0 R346 R347 EMFCUT -0.0001 3E-05 0.0 R348 EMFCUT -0.0001 3E-05 0.0 R349 R352 EMFCUT -0.0001 3E-05 0.0 R353 EMFCUT -0.0003 0.0001 0.0 R354 R355 EMFCUT -0.0001 3E-05 0.0 R357 R358 EMFCUT -0.0001 3E-05 0.0 R359 EMFCUT -0.0001 3E-05 0.0 R360 EMFCUT -0.0003 0.0001 0.0 R361 R363 EMFCUT -0.0003 0.0001 0.0 R363 EMFCUT -0.0003 0.0001 0.0 R364 EMFCUT -0.0001 3E-05 0.0 R365 R366 EMFCUT -0.0001 3E-05 0.0 R468 EMFCUT -0.0001 3E-05 0.0 R367 EMFCUT -0.0001 3E-05 0.0 R367 R369 EMFCUT -0.0003 0.0001 0.0 R370 R376 EMFCUT -0.0003 0.0001 0.0 R377 R380 EMFCUT -0.0003 0.0001 0.0 R381 EMFCUT -0.0003 0.0001 0.0 R382 R383 EMFCUT -0.0001 3E-05 0.0 R384 EMFCUT -0.0001 3E-05 0.0 R385 R393 EMFCUT -0.0001 3E-05 0.0 R394 EMFCUT -0.0001 3E-05 0.0 R395 EMFCUT -0.0001 3E-05 0.0 R396 EMFCUT -0.003 0.001 0.0 R399 EMFCUT -0.001 0.0003 0.0 R400 EMFCUT -0.001 0.0003 0.0 R401 EMFCUT -0.001 0.0003 0.0 R402 R403 EMFCUT -0.001 0.0003 0.0 R404 EMFCUT -0.001 0.0003 0.0 R405 R406 EMFCUT -0.0001 3E-05 0.0 R407 EMFCUT -0.0001 3E-05 0.0 R408 EMFCUT -0.0001 3E-05 0.0 R409 EMFCUT -0.001 0.0003 0.0 R410 R412 EMFCUT -0.0001 3E-05 0.0 R413 R418 EMFCUT -0.003 0.001 0.0 R426 R429 EMFCUT -0.003 0.001 0.0 R430 EMFCUT -0.0001 3E-05 0.0 R431 EMFCUT -0.003 0.001 0.0 R432 R433 EMFCUT -0.001 0.0003 0.0 R434 EMFCUT -0.0003 0.0001 0.0 R435 EMFCUT -0.0001 3E-05 0.0 R436 EMFCUT -0.0001 3E-05 0.0 R437 EMFCUT -0.0001 3E-05 0.0 R438 EMFCUT -0.0001 3E-05 0.0 R471 EMFCUT -0.0001 3E-05 0.0 R439 R462 EMFCUT -0.0001 3E-05 0.0 R463 R466 EMFCUT -0.0001 3E-05 0.0 R467 EMFCUT -0.0001 3E-05 0.0 R469 EMFCUT -0.0001 3E-05 0.0 R470 EMFCUT -0.0001 3E-05 0.0 R472 EMFCUT -0.0001 3E-05 0.0 R473 R479 EMFCUT -0.0001 3E-05 0.0 R487 *EMFCUT 1E-8 5E-7 0.0 RBCM1F RBCM1F *EMFCUT 1E-8 5E-7 0.0 RBCM1L RBCM1L *EMFCUT 1E-8 5E-7 0.0 RBCM2i RBCM2i *EMFCUT 1E-8 5E-7 0.0 RBCM2o RBCM2o * * ***************************************************************** * -------------- DISCARD PARTICLES, THRESHOLDS -------------------* * ***************************************************************** * * set threshold for star scoring THRESHOL 0.02 PART-THR -1.E-6 PROTON AOMEGAC0 PART-THR -1E-14 NEUTRON 0.0 * * ********************************************************************* * ------------------------- MAGNETIC FIELDS --------------------------* * ********************************************************************* USRGCALL INIT MGNFIELD 20.0 0.1 0.1 0.0 0.0 0.0 * * switch on EMF EMF * ***************************************************************** * ------------------ ADDITIONAL PHYSICS --------------------------* * ***************************************************************** * activates delta ray production by muons and charged hardrons DELTARAY 0.0001 50.0 1.1 HYDROG-1 ALUMINUM DELTARAY 0.005 50.0 1.15 IRON COPPER DELTARAY 0.0001 50.0 1.1 BORON AIR DELTARAY 0.01 50.0 1.15 NICKEL CONCRETE DELTARAY 0.0001 50.0 1.1 YOKE-FE POLYSTYR DELTARAY 0.001 50.0 1.1 WATER DELTARAY 0.01 50.0 1.15 PBWO4 DELTARAY 0.0001 50.0 1.1 MGN-CON2 BORAL DELTARAY 0.005 50.0 1.15 G10-PLAT DELTARAY 0.0001 50.0 1.1 HV-AVE POTASSIU DELTARAY 0.005 50.0 1.15 BOR-ACID DELTARAY 0.0001 50.0 1.1 BORON-11 HPD-BOX DELTARAY 0.01 50.0 1.15 PBPOLYC DELTARAY 0.0001 50.0 1.1 BRASS LIPOLY DELTARAY 0.0001 50.0 1.1 WCASTOR * pari production and bremsstrahlung by muons and ch. hardrons PAIRBREM 3.0 0.001 0.0001 BRASS LIPOLY PAIRBREM 3.0 0.001 0.0001 HYDROG-1 ALUMINUM PAIRBREM 3.0 0.005 0.001 IRON COPPER PAIRBREM 3.0 0.001 0.0001 BORON AIR PAIRBREM 3.0 0.01 0.002 NICKEL CONCRETE PAIRBREM 3.0 0.001 0.0001 YOKE-FE POLYSTYR PAIRBREM 3.0 0.005 0.001 WATER PAIRBREM 3.0 0.01 0.002 PBWO4 PAIRBREM 3.0 0.001 0.0001 MGN-CON2 BORAL PAIRBREM 3.0 0.005 0.001 G10-PLAT PAIRBREM 3.0 0.001 0.0001 HV-AVE POTASSIU PAIRBREM 3.0 0.005 0.001 BOR-ACID PAIRBREM 3.0 0.001 0.0001 BORON-11 HPD-BOX PAIRBREM 3.0 0.01 0.002 PBPOLYC PAIRBREM 3.0 0.001 0.0001 POLYETHE * gamma interactions with nuclei *PHOTONUC 1101.0 ALUMINUM *PHOTONUC 1101.0 TANTALUM *PHOTONUC 1101.0 PBWO4 *PHOTONUC 1101.0 BAKELITE DTBX-GAS *PHOTONUC 1101.0 G10-PLAT *PHOTONUC 1101.0 MB-HCOMB MSGC-AVE *PHOTONUC 1101.0 ACCUR-FE RPC-GFW * ***************************************************************** * ------------------ LOW-ENERGY NEUTRONS -------------------------* * ***************************************************************** LOW-NEUT 260. 42. 0.02 1. -11. LOW-BIAS 0.0 0.0 1. R001 @LASTREG * * select H2O bound hydrogen *LOW-MAT HYDROGEN 1.0 -2.0 293.0 HYDROGEN *LOW-MAT HYDROG-1 1.0 -2.0 293.0 HYDROGEN * select self-shiel2ded Xsecs for Fe, Cu and Pb LOW-MAT IRON 26. -2. 296. IRON LOW-MAT COPPER 29. -4. 87. COPPER LOW-MAT HYDROG-1 1. -5. 296. HYDROGEN LOW-MAT LEAD 82. -2. 296. LEAD * set additional low-mat's LOW-MAT ACCUR-FE 26. -2. 296. IRON *LOW-MAT WCASTOR 74. -2. 296. TUNGSTEN LOW-MAT MB-HCOMB 13. 27. 296. ALUMINUM LOW-MAT DIAMOND 6. -2. 296. CARBON LOW-MAT DMY_MAT 6. -2. 296. CARBON LOW-MAT TITANIUM 22. -2. 296.0 TITANIUM LOW-MAT BARIUM 56. -2. 296.0 BARIUM LOW-MAT GOLD 79. 197. 296.0 GOLD LOW-MAT FPIX-IN 13. 27. 296.0 ALUMINUM LOW-MAT FPIX-OUT 13. 27. 296.0 ALUMINUM LOW-MAT TIN 50. -2. 296.0 TIN LOW-MAT NICKEL 28. -2. 296.0 NICKEL LOW-MAT CHROMIUM 24. -2. 296.0 CHROMIUM * ********************************************************************* * ------------------ OUTPUT AND SCORING ------------------------------* * ********************************************************************* * Score all-stars and energy on a region basis SCORE DPA-SCO NEUTRON ALL-PART ENERGY USRBIN 10. ENERGY -21. 221. 70. 1351.LRckEn1 USRBIN 220. -81. 1291. 1. 1. 1.& USRBIN 10. DOSE -22. 221. 70. 1351.LRckDos1 USRBIN 220. -81. 1291. 1. 1. 1.& USRBIN 10. NEUTRON -23. 221. 70. 1351.LRckNeu1 USRBIN 220. -81. 1291. 1. 1. 1.& USRBIN 10. HAD-CHAR -24. 221. 70. 1351.LRckChH1 USRBIN 220. -81. 1291. 1. 1. 1.& USRBIN 10. ENERGY -25. 221. 70. 1351.LRckEn2 USRBIN 220. -81. 1291. 1. 151. 60.& USRBIN 10. DOSE -26. 221. 70. 1351.LRckDos2 USRBIN 220. -81. 1291. 1. 151. 60.& USRBIN 10. NEUTRON -27. 221. 70. 1351.LRckNeu2 USRBIN 220. -81. 1291. 1. 151. 60.& USRBIN 10. HAD-CHAR -28. 221. 70. 1351.LRckChH2 USRBIN 220. -81. 1291. 1. 151. 60.& USRBIN 10. ENERGY -31. 221. 306. 1405.URckEn1 USRBIN 220. 124. 1345. 1. 1. 1.& USRBIN 10. DOSE -32. 221. 306. 1405.URckDos1 USRBIN 220. 124. 1345. 1. 1. 1.& USRBIN 10. NEUTRON -33. 221. 306. 1405.URckNeu1 USRBIN 220. 124. 1345. 1. 1. 1.& USRBIN 10. HAD-CHAR -34. 221. 306. 1405.URckChH1 USRBIN 220. 124. 1345. 1. 1. 1.& USRBIN 10. ENERGY -35. 221. 306. 1405.URckEn2 USRBIN 220. 124. 1345. 1. 182. 60.& USRBIN 10. DOSE -36. 221. 306. 1405.URckDos2 USRBIN 220. 124. 1345. 1. 182. 60.& USRBIN 10. NEUTRON -37. 221. 306. 1405.URckNeu2 USRBIN 220. 124. 1345. 1. 182. 60.& USRBIN 10. HAD-CHAR -38. 221. 306. 1405.URckChH2 USRBIN 220. 124. 1345. 1. 182. 60.& USRTRACK -1. NEUTRON -41. HFLRACK 9060. 30.LRckNeu5 USRTRACK 1E-9 & USRTRACK -1. NEUTRON -42. HFLRACK 9060. 20.LRckNeu6 USRTRACK 1E-3 & USRTRACK -1. NEUTRON -43. HFLRACK 9060. 20.LRckNeu7 USRTRACK 1E-2 & USRTRACK -1. HAD-CHAR -44. HFLRACK 9060. 30.LRckChH5 USRTRACK 1E-9 & USRTRACK -1. HAD-CHAR -45. HFLRACK 9060. 20.LRckChH6 USRTRACK 1E-3 & USRTRACK -1. HAD-CHAR -46. HFLRACK 9060. 20.LRckChH7 USRTRACK 1E-2 & USRTRACK -1. NEUTRON -51. HFURACK 10920. 30.URckNeu5 USRTRACK 1E-9 & USRTRACK -1. NEUTRON -52. HFURACK 10920. 20.URckNeu6 USRTRACK 1E-3 & USRTRACK -1. NEUTRON -53. HFURACK 10920. 20.URckNeu7 USRTRACK 1E-2 & USRTRACK -1. HAD-CHAR -54. HFURACK 10920. 30.URckChH5 USRTRACK 1E-9 & USRTRACK -1. HAD-CHAR -55. HFURACK 10920. 20.URckChH6 USRTRACK 1E-3 & USRTRACK -1. HAD-CHAR -56. HFURACK 10920. 20.URckChH7 USRTRACK 1E-2 & USRBIN 10. ENERGY -70. 221. 349. 1453.View1En USRBIN 220. -113. 1255. 1. 236. 198.& USRBIN 10. DOSE -71. 221. 349. 1453.View1Dos USRBIN 220. -113. 1255. 1. 236. 198.& USRBIN 10. NEUTRON -72. 221. 349. 1453.View1Neu USRBIN 220. -113. 1255. 1. 236. 198.& USRBIN 10. HAD-CHAR -73. 221. 349. 1453.View1ChH USRBIN 220. -113. 1255. 1. 236. 198.& USRBIN 10. ENERGY -80. 250. 370. 1347.View2En USRBIN 190. -154. 1346. 60. 524. 1.& USRBIN 10. DOSE -81. 250. 370. 1347.View2Dos USRBIN 190. -154. 1346. 60. 524. 1.& USRBIN 10. NEUTRON -82. 250. 370. 1347.View2Neu USRBIN 190. -154. 1346. 60. 524. 1.& USRBIN 10. HAD-CHAR -83. 250. 370. 1347.View2ChH USRBIN 190. -154. 1346. 60. 524. 1.& * * ********************************************************************* * ------------------- START SIMULATION -------------------------------* * ********************************************************************* RANDOMIZ 1.0 1.0 START 300.0 99999999. 0.0 MAT-PROP 42. DIAMOND DIAMOND 1.DPA-ENER MAT-PROP 1. DMY_MAT USERDIRE MAT-PROP 1. WCASTOR USERDIRE MAT-PROP 1. AIR USERDIRE MAT-PROP 1. BLCKHOLE USERDIRE MAT-PROP 1. CONCRETE USERDIRE * definitions of compounds * lithium, these are indeed atom percentages ! COMPOUND 0.2 BORON-10 0.8 BORON-11 BORON COMPOUND 0.075 LITHIU-6 0.925 LITHIU-7 LITHIUM * insslator for beam pipe COMPOUND 2.0 OXYGEN 1.0 SILICON SIO2WOOL * for air, assume 9g/m**3 of water. Density of dry air is 1205g/m**3, so * water is 0.74 % by weight. * ________+_________+_________+_________+_________+_________+_________+ COMPOUND -0.742 NITROGEN -0.237 OXYGEN -0.013 ARGONAIR COMPOUND -0.008 HYDROG-1 AIR * ________+_________+_________+_________+_________+_________+_________+ COMPOUND -0.006 HYDROG-1 -0.03 CARBON -0.5 OXYGENCONCRETE COMPOUND -0.01 SODIUM -0.03 ALUMINUM -0.2 SILICONCONCRETE COMPOUND -0.01 POTASSIU -0.2 CALCIUM -0.014 IRONCONCRETE * new composition based on ankerport element analysis COMPOUND -.0074 HYDROG-1 -0.0281 CARBON -.5067 OXYGENBOR-CONC COMPOUND -.0094 SODIUM -.0282 ALUMINUM -0.1883 SILICONBOR-CONC COMPOUND -.0094 POTASSIU -.2 CALCIUM -.0131 IRONBOR-CONC COMPOUND -.0081 BORON -5.E-4 MAGNESIU -6.E-4 STRONTIUBOR-CONC * new composition based on ankerport element analysis COMPOUND -.0068 HYDROG-1 -.0054 BORON -.3588 OXYGENMGN-CON2 COMPOUND -4.E-4 STRONTIU -0.0118 ALUMINUM -.026 SILICONMGN-CON2 COMPOUND -.0556 CALCIUM -.5314 IRON -9.E-4 MAGNESIUMGN-CON2 COMPOUND -5.E-4 TITANIUM -.0017 POTASSIU -6.E-4 MANGANESMGN-CON2 * ________+_________+_________+_________+_________+_________+_________+ COMPOUND -0.001 CARBON -0.001 SILICON -0.01 NICKELYOKE-FE COMPOUND -.986 IRON -0.002 COPPER YOKE-FE * ________+_________+_________+_________+_________+_________+_________+ COMPOUND -0.7 IRON -0.2 CHROMIUM -0.1 NICKELST.STEEL * ________+_________+_________+_________+_________+_________+_________+ COMPOUND 2.0 HYDROG-1 1.0 CARBON POLYETHE * ________+_________+_________+_________+_________+_________+_________+ COMPOUND -.116 HYDROG-1 -.612 CARBON -.05 BORONB-POLYET COMPOUND -0.222 OXYGEN B-POLYET * ________+_________+_________+_________+_________+_________+_________+ COMPOUND 1.0 HYDROG-1 1.0 CARBON POLYSTYR * ________+_________+_________+_________+_________+_________+_________+ COMPOUND 1.0 HYDROG-1 1.0 CARBON SCINTILL * ________+_________+_________+_________+_________+_________+_________+ COMPOUND 2.0 HYDROG-1 1.0 OXYGEN WATER * ________+_________+_________+_________+_________+_________+_________+ COMPOUND 1.0 LEAD 1.0 TUNGSTEN 4.0 OXYGENPBWO4 * ________+_________+_________+_________+_________+_________+_________+ COMPOUND 38.0 HYDROG-1 45.0 CARBON 7.0 OXYGENBAKELITE * ________+_________+_________+_________+_________+_________+_________+ COMPOUND -0.176 ARGON -0.529 OXYGEN -0.084 FLUORINECSC-GAS COMPOUND -0.211 CARBON CSC-GAS * ________+_________+_________+_________+_________+_________+_________+ * Forward RPC gas: 86.5-9-0.5-4 Ar-CO2-C4F10-C4H10 COMPOUND -0.8224 ARGON -0.0771 CARBON -0.0685 OXYGENRPC-GFW COMPOUND -0.0225 FLUORINE -0.0095 HYDROG-1 RPC-GFW * ________+_________+_________+_________+_________+_________+_________+ * Barrel RPC gas: 90-10 C2H2F4-Ar COMPOUND -0.0187 HYDROG-1 -0.2255 CARBON -0.714 FLUORINERPC-GBA COMPOUND -0.0418 ARGON RPC-GBA * ________+_________+_________+_________+_________+_________+_________+ * 80-20 Ar-CO2 COMPOUND -0.05 CARBON -0.15 OXYGEN -0.8 ARGONDTBX-GAS * ________+_________+_________+_________+_________+_________+_________+ * 50-50 Ar-DME COMPOUND -0.5 ARGON -0.261 CARBON -0.065 HYDROG-1AR-DME COMPOUND -0.174 OXYGEN AR-DME * ________+_________+_________+_________+_________+_________+_________+ COMPOUND 2.0 OXYGEN 1.0 SILICON GLASS * ________+_________+_________+_________+_________+_________+_________+ * this is boral from Nuclear Experiments Inc. COMPOUND -0.004 CARBON -0.171 BORON -0.825 ALUMINUMBORAL * ________+_________+_________+_________+_________+_________+_________+ COMPOUND -0.001 CARBON -0.008 SILICON -0.01 NICKELHV-AVE COMPOUND -0.971 IRON -0.002 COPPER -0.008 OXYGENHV-AVE * ________+_________+_________+_________+_________+_________+_________+ * HV, copper absorber COMPOUND -0.002 OXYGEN -0.002 SILICON -0.996 COPPERHV-AVE2 * ________+_________+_________+_________+_________+_________+_________+ * assume that this is lucite (C5H8O2) COMPOUND 8.0 HYDROG-1 5.0 CARBON 2.0 OXYGENMF-HCOMB * ________+_________+_________+_________+_________+_________+_________+ * 40% epcoxy, 60% glass (by weight) COMPOUND -0.317 CARBON -0.3804 OXYGEN -0.0226 HYDROG-1G10-PLAT COMPOUND -0.28 SILICON G10-PLAT * ________+_________+_________+_________+_________+_________+_________+ COMPOUND -0.0016 GOLD -0.463 SILICON -0.5304 OXYGENMSGC-AVE COMPOUND -0.0029 ARGON -0.0017 CARBON -0.0004 HYDROG-1MSGC-AVE * ________+_________+_________+_________+_________+_________+_________+ * these have been obtained from the tentative values of Horst, assuming * average service length of 2m in tracker volume (which gives the 1500 kg). COMPOUND -0.31 CARBON -0.08 OXYGEN -0.02 NITROGENTRAIR-AV COMPOUND -0.055 HYDROG-1 -0.3 IRON -0.235 ALUMINUMTRAIR-AV * ________+_________+_________+_________+_________+_________+_________+ *COMPOUND -0.586 COPPER -0.259 CARBON -0.138 OXYGENCABLE-AV *COMPOUND -0.017 HYDROG-1 CABLE-AV * EE/EB service channel, based on duccios numbers + st. steel for cable trays COMPOUND -0.3372 COPPER -.04529 ALUMINUM -.00602 SILVERCABLE-AV COMPOUND -.00733 KAPTON -.06864 C6F14 -.08357 POLYETHECABLE-AV COMPOUND -.0017 SiO2 -.00401 Plexigla -.00437 RILSANCABLE-AV COMPOUND -.44182 ST.STEEL CABLE-AV * ________+_________+_________+_________+_________+_________+_________+ COMPOUND 1.0 HYDROG-1 1.0 CARBON INSU-FOA * ________+_________+_________+_________+_________+_________+_________+ COMPOUND -0.9 CARBON -0.03 HYDROG-1 -0.07 OXYGENCARBON-F * ________+_________+_________+_________+_________+_________+_________+ COMPOUND -0.109 HYDROG-1 -0.884 OXYGEN -0.007 BORONBOR-ACID * ________+_________+_________+_________+_________+_________+_________+ COMPOUND 0.235 HYDROG-1 0.235 CARBON 0.53 COPPERHPD-BOX * ________+_________+_________+_________+_________+_________+_________+ COMPOUND -0.023 HYDROG-1 -0.003 LITHIU-6 -0.039 LITHIU-7PBPOLYC COMPOUND -0.114 FLUORINE -0.102 CARBON -0.088 OXYGENPBPOLYC COMPOUND -0.022 ALUMINUM -0.013 CALCIUM -0.596 LEADPBPOLYC COMPOUND -0.023 HYDROG-1 -0.02 BORON -0.114 FLUORINEPBPOLYC COMPOUND -0.102 CARBON -0.088 OXYGEN -0.022 ALUMINUMPBPOLYC COMPOUND -0.013 CALCIUM -0.618 LEAD PBPOLYC * ________+_________+_________+_________+_________+_________+_________+ COMPOUND -0.67 COPPER -0.33 ZINC BRASS * ________+_________+_________+_________+_________+_________+_________+ COMPOUND -0.8133 LEAD -0.1028 CARBON -0.036 OXYGENPBBPOLY COMPOUND -0.017 HYDROG-1 -0.0106 CALCIUM -0.00208 BORON-10PBBPOLY COMPOUND -0.00832 BORON-11 -0.0041 SILICON -0.0034 SODIUMPBBPOLY COMPOUND -0.0024 ALUMINUM PBBPOLY * ________+_________+_________+_________+_________+_________+_________+ COMPOUND -0.5776 CARBON -0.26134 OXYGEN -0.086 HYDROG-1LIPOLY COMPOUND -0.005625 LITHIU-6 -0.069375 LITHIU-7 LIPOLY MATERIAL 28.0 58.71 8.902 25.0 NICKEL MATERIAL 7.87 26.0 YOKE-FE MATERIAL 8.0 27.0 ST.STEEL MATERIAL 0.95 28.0 POLYETHE MATERIAL 0.93 29.0 B-POLYET MATERIAL 1.032 30.0 POLYSTYR MATERIAL 1.0 31.0 WATER MATERIAL 8.28 32.0 PBWO4 MATERIAL 3.574 33.0 MGN-CON2 MATERIAL 1.5 34.0 BAKELITE MATERIAL 0.0021 35.0 CSC-GAS MATERIAL 0.0043 36.0 RPC-GBA MATERIAL 0.0018 37.0 DTBX-GAS MATERIAL 0.00192 38.0 AR-DME MATERIAL 2.3 39.0 GLASS MATERIAL 2.5 40.0 BORAL MATERIAL 1.7 41.0 G10-PLAT * averaged materials * average HV has 1.5% SiO2, 3.5% air and 95% Yoke iron. MATERIAL 7.51 42.0 HV-AVE * this is in fact pure Al-honeycomb (density fitted to give for full * chamber a mass of 120kg.m**2 MATERIAL 13.0 26.9815 0.4 43.0 MB-HCOMB MATERIAL 0.273 44.0 MSGC-AVE * assume a mass of 1500kg (+ 200 for detectors) MATERIAL 0.047 45.0 TRAIR-AV MATERIAL 0.88 46.0 CABLE-AV MATERIAL 0.02 47.0 INSU-FOA MATERIAL 1.7 48.0 CARBON-F * new additions and other stuff MATERIAL 26.0 55.847 7.874 49.0 ACCUR-FE MATERIAL 0.08 50.0 MF-HCOMB MATERIAL 19.0 39.098 0.862 51.0 POTASSIU MATERIAL 0.00188 52.0 RPC-GFW MATERIAL 3.0 6.0 0.534 53.0 6.0LITHIU-6 MATERIAL 3.0 7.0 0.534 54.0 7.0LITHIU-7 MATERIAL 1.05 55.0 BOR-ACID * HV ave for copper absorber MATERIAL 8.55 56.0 HV-AVE2 MATERIAL 5.0 10.0 2.37 57.0 10.0BORON-10 MATERIAL 5.0 11.0 2.37 58.0 11.0BORON-11 MATERIAL 0.9 59.0 SCINTILL MATERIAL 2.4 60.0 HPD-BOX MATERIAL 3.53 61.0 PBPOLYC MATERIAL 2.35 62.0 BOR-CONC MATERIAL 30.0 65.38 8.0 63.0 ZINC MATERIAL 8.96 64.0 BRASS MATERIAL 4.2 65.0 PBBPOLY MATERIAL 1.06 66.0 LIPOLY MATERIAL 0.52 67.0 BELLOW MATERIAL 12.88 68.0 WCASTOR MATERIAL 0.3 69.0 SIO2WOOL MATERIAL 6.0 12.011 3.52 70.0 DIAMOND MATERIAL 92. 150. 71.0 DMY_MAT MATERIAL 1.0 1.0079 8.99E-05 72.0 1.0HYDROG-1 MATERIAL 3.0 6.941 0.534 73.0 LITHIUM MATERIAL 5.0 10.81 2.37 74.0 BORON MATERIAL 9.0 18.9984 0.001696 75.0 FLUORINE MATERIAL 24.0 51.996 7.18 76.0 CHROMIUM MATERIAL 0.001205 77.0 AIR MATERIAL 2.35 78.0 CONCRETE * ________+_________+_________+_________+_________+_________+_________+ COMPOUND -0.7 IRON -0.2 CHROMIUM -0.1 NICKELBELLOW * based on Brian Heltsleys geant list COMPOUND -.45666 ALUMINUM -.223671 IRON -0.060745 CHROMIUMEcal_AV COMPOUND -.05621 CARBON -.050498 OXYGEN -.067092 COPPEREcal_AV COMPOUND -.031971 NICKEL -.039122 SILICON -.010828 HYDROGENEcal_AV COMPOUND -.003197 MANGANES Ecal_AV * for RS hinges COMPOUND -0.00116 AIR -.333 YOKE-FE HINGE_AV MATERIAL 38. 87.62 2.54 79. STRONTIU MATERIAL 25. 54.938049 7.44 80. MANGANES * based on brian heltsleys geant list MATERIAL 1.28 81. Ecal_AV * hinges for the RS, check density MATERIAL 0.34 82. HINGE_AV * Kapton polyimide film (C22_H10_N2_O5)n MATERIAL 1.42 83. KAPTON MATERIAL 1.68 84. C6F14 * Cooling screens for preshower (infront of lead absorber) average material * 70% Al 30% C6F14 MATERIAL 2.39 CoolScr COMPOUND -0.026362 HYDROGEN -0.691133 CARBON -.07327 NITROGENKAPTON COMPOUND -0.209235 OXYGEN KAPTON COMPOUND 6.0 CARBON 14.0 FLUORINE C6F14 COMPOUND -0.7 -ALUMINUM -0.3 -C6F14 CoolScr * 245 SiO2 (quartz) * The density of SiO2 may vary from 2.3 - 2.5 g/cm3 depending on the * method of preparation. Under ion bombardment, the surface density * will change towards an equilibrium value of about 2.37. MATERIAL 2.32 SiO2 COMPOUND 2.0 OXYGEN 1.0 SILICON SiO2 * Plexiglas, Acrylic * Chemical H H * Formula | | * ----- C - C ----- * | | * H C - O - CH * C H O || 3 * 6 4 2 O * Density variation is very narrow: 1.14-1.19 g/cm3. MATERIAL 1.17 Plexigla COMPOUND 6.0 HYDROGEN 4.0 CARBON 2.0 OXYGENPlexigla * Nylon type 11 rilsan (C11_H21_O_N)n MATERIAL 1.425 RILSAN COMPOUND -0.115476 HYDROGEN -.720819 CARBON -.076417 NITROGENRILSAN COMPOUND -.087289 OXYGEN RILSAN MAT-PROP 61.6 RILSAN STERNHEI 2.7514 .0678 2.4281 .14868 3.2576 RILSAN MAT-PROP 79.6 KAPTON STERNHEI 3.3497 .1509 2.5631 0.15972 3.1921 KAPTON * Average material for T1 CSC chambers * use as volume fractions (calculated from thickness of layers (4.4cm): * 7% G10-plate * 23% CSC-gas * 70% T2-HCOMB (has the correct density) * Denstiy calculated such as one layer weights 30kg (in average = layer3) MATERIAL 0.32 T1CSCavg * Electronics cards for T1 * denstiy estimated to fit weight of ~10kg per ring. MATERIAL 1.9 T1Electr * Support structure for T1 (Metal) * density estimated to fit weight of ~20kg per ring. MATERIAL 7.5 T1Metal COMPOUND -0.23 -CSC-GAS -0.7 -T2-HCOMB -0.07 -G10-PLATT1CSCavg COMPOUND -.6 G10-PLAT -.4 COPPER T1Electr COMPOUND -0.5 COPPER -0.5 ALUMINUM T1Metal * Material and compound for Totem T2 materials MATERIAL 2.64 11THCARD MATERIAL 2.55 COOLRING * TOTEM-T2 material of the full GEM Chambers (including Al layer) MATERIAL 0.2528 T2-GEM * GAS filling TOTEM-T2 GEM Chambers MATERIAL 0.001801 GEM-GAS * TOTEM-T2 GEM Chamber material: 42.3% HCOMB, 56.1% GEM-GAS, 1.2% Kapton, 0.4% Cu MATERIAL 0.2231 GEMCHAM * 134 Carbon Dioxide for TOTEM-T2 chambers * Formula O == C == O MATERIAL .001842 CO2 MATERIAL 13.0 26.9815 0.4 T2-HCOMB COMPOUND -.988 GEMCHAM -0.012 ALUMINUM T2-GEM COMPOUND -0.87 G10-PLAT -0.13 COPPER 11THCARD COMPOUND -0.624 G10-PLAT -.076 COPPER -.3 ALUMINUMCOOLRING COMPOUND -.423 T2-HCOMB -.561 GEM-GAS -.004 COPPERGEMCHAM COMPOUND -0.012 KAPTON GEMCHAM COMPOUND -.7 ARGON -.3 CO2 GEM-GAS COMPOUND 1.0 CARBON 2.0 OXYGEN CO2 COMPOUND 8.0 HYDROG-1 5.0 CARBON 2.0 OXYGENT2-HCOMB * materials for pixels MATERIAL 56. 137.327 2.5 BARIUM * Barium Titanate MATERIAL 6.02 BAR-TIT * Silicon nitride MATERIAL 3.44 SI-NITR * Glue (epoxy resin) MATERIAL 1.05 GLUE * Solder MATERIAL 7.44 SOLDER * FR4 MATERIAL 1.85 FR4 * Airex (polyuethane) C17-H12-N2-O4) MATERIAL 0.0494 AIREX * Silicon rubber MATERIAL 1.133 SI-RUBBE * SnPb solder MATERIAL 8.801 SNPB-SOL * FPIX Fwd VHDI MATERIAL 3.106 FPIX-VHD * FPIX Fwd AgExopy MATERIAL 2.000 FPIX-AGE * FPIX Fwd AdhFilm MATERIAL 0.3915 FPIX-ADF * Boron Nitride Powder MATERIAL 2.270 BN-POWD * inner and outer shielding MATERIAL 1.6582 BPIX-SH * Pixel detector MATERIAL 1.2558 BPIX-DET * Pixel detector cables MATERIAL 0.4388 BPIX-CAB * End flange MATERIAL 1.819 BPIX-FLG * Supply tube C MATERIAL 0.3954 SUP-TUBC * Supply tube B MATERIAL 0.3076 SUP-TUBB * Supply tube A MATERIAL 0.4640 SUP-TUBA * Forward pixel detector MATERIAL 0.4738 FPIX-DET * Inner side of detector MATERIAL 13.0 26.9815 0.412 FPIX-IN * Outer side of detector MATERIAL 13.0 26.9815 0.248 FPIX-OUT * Service cylinder for FPIX MATERIAL 0.340 FPIX-CYL * Components of Service Cylinder: * Pix_Fwd_End_Electro_1 MATERIAL 0.2934 END-ELE1 * Pix_Fwd_End_Electro_2 MATERIAL 0.2771 END-ELE2 * Pix_Fwd_End_Coil_Fiber MATERIAL 0.200 END-COIL * Pix_Fwd_End_Pipe_1 MATERIAL 2.87 END-PIP1 * Pix_Fwd_End_Pipe_2 MATERIAL 3.054 END-PIP2 * Pix_Fwd_Port_Cards MATERIAL 1.228 PORTCARD * Service cylinder MATERIAL 0.637 SERV-CYL MATERIAL 1.029 SCASTOR * Barium Titanate COMPOUND -0.2058 OXYGEN -0.2053 TITANIUM -0.5889 BARIUMBAR-TIT * Silicon Nitride COMPOUND -0.3994 NITROGEN -0.6006 SILICON SI-NITR * Glue COMPOUND -0.0719 HYDROGEN -0.5999 CARBON -0.0999 NITROGENGLUE COMPOUND -0.2283 OXYGEN GLUE * Solder COMPOUND -0.0038 COPPER -0.0320 SILVER -0.9642 TINSOLDER * Solder of Tin-Lead COMPOUND -0.4938 TIN -0.5062 LEAD SNPB-SOL * FR4 COMPOUND 1.0 SiO2 1.0 GLUE FR4 * Airex COMPOUND -0.0485 HYDROGEN -0.6659 CARBON -0.0900 NITROGENAIREX COMPOUND -0.2056 OXYGEN AIREX * Silicon rubber COMPOUND -0.0816 HYDROGEN -0.3239 CARBON -0.2158 OXYGENSI-RUBBE COMPOUND -0.3787 SILICON SI-RUBBE * Boron nitride powder COMPOUND 1.0 BORON 1.0 NITROGEN BN-POWD * VHDI for forward pixel COMPOUND -0.34464 KAPTON -0.5877 COPPER -0.0460 SNPB-SOLFPIX-VHD COMPOUND -0.02146 BAR-TIT FPIX-VHD * AgEpoxy for forward pixel COMPOUND -0.34464 KAPTON -0.5877 GLUE -0.0460 SILICONFPIX-AGE COMPOUND -0.02146 BN-POWD FPIX-AGE * AdFilm for forward pixel COMPOUND -0.64924 GLUE -0.35076 BN-POWD FPIX-ADF * Aluminum + Kevlar COMPOUND -0.0465 HYDROGEN -0.6650 CARBON -0.1293 NITROGENBPIX-SH COMPOUND -0.1476 OXYGEN -0.0116 ALUMINUM BPIX-SH * Barell Pixel detector COMPOUND -0.1968 C6F14 -0.2624 SILICON -0.11283 SI-NITRBPIX-DET COMPOUND -0.04225 COPPER -0.15481 ALUMINUM -0.05405 KAPTONBPIX-DET COMPOUND -0.10496 CARBON-F -0.01837 ST.STEEL -0.00640 GLUEBPIX-DET COMPOUND -0.00236 NICKEL -0.00105 GOLD -0.01260 SOLDERBPIX-DET COMPOUND -0.03148 BAR-TIT BPIX-DET * Pixel cables COMPOUND -0.44512 KAPTON -0.20122 ALUMINUM -0.35366 COPPERBPIX-CAB * EndFlange COMPOUND -0.12649 C6F14 -0.08288 SiO2 -0.03055 AIREXBPIX-FLG COMPOUND -0.18018 COPPER -0.07186 ALUMINUM -0.07435 KAPTONBPIX-FLG COMPOUND -0.11774 CARBON-F -0.03364 ST.STEEL -0.14936 POLYETHEBPIX-FLG COMPOUND -0.06459 FR4 -0.00646 SOLDER -0.06190 SI-RUBBEBPIX-FLG * Supply tube section C COMPOUND -0.01289 AIREX -0.22217 FR4 -0.30941 POLYETHESUP-TUBC COMPOUND -0.14869 C6F14 -0.20198 ALUMINUM -0.04040 ST.STEELSUP-TUBC COMPOUND -0.06446 COPPER SUP-TUBC * Supply tube section B COMPOUND -0.01566 AIREX -0.11734 FR4 -0.39492 POLYETHESUP-TUBB COMPOUND -0.18793 C6F14 -0.16931 ALUMINUM -0.05061 ST.STEELSUP-TUBB COMPOUND -0.06423 COPPER SUP-TUBB * Supply tube section A COMPOUND -0.02980 AIREX -0.24320 FR4 -0.22719 POLYETHESUP-TUBA COMPOUND -0.12290 C6F14 -0.22719 ALUMINUM -0.13073 ST.STEELSUP-TUBA COMPOUND -0.01899 COPPER SUP-TUBA * Forward Pixel detector COMPOUND -0.09555 C6F14 -0.22686 SILICON -0.16254 BERYLLIUFPIX-DET COMPOUND -0.00076 SNPB-SOL -0.26784 ALUMINUM -0.07195 FPIX-AGEFPIX-DET COMPOUND -0.15063 FPIX-VHD -0.02387 FPIX-ADF FPIX-DET * Service cylinder for FPIX COMPOUND -0.96869 CARBON-F -0.02167 G10-PLAT -0.00794 ALUMINUMFPIX-CYL COMPOUND -0.14869 SI-NITR FPIX-CYL * End_Electro_1 COMPOUND -0.12647 CARBON-F -0.35741 G10-PLAT -0.32545 SOLDEREND-ELE1 COMPOUND -0.14869 POLYETHE -0.05796 COPPER -0.01666 POLYSTYREND-ELE1 * End_Electro_2 COMPOUND -0.12877 CARBON-F -0.36597 G10-PLAT -0.33942 SOLDEREND-ELE2 COMPOUND -0.11370 POLYETHE -0.03572 COPPER -0.01642 POLYSTYREND-ELE2 * End_Coil_Fiber COMPOUND -0.28498 POLYETHE -0.12749 G10-PLAT -0.58753 POLYSTYREND-COIL * End_Pipe_1 COMPOUND -0.45511 SOLDER -0.29719 C6F14 -0.18078 ALUMINUMEND-PIP1 COMPOUND -0.06692 POLYETHE END-PIP1 * End_Pipe_2 COMPOUND -0.45900 SOLDER -0.26697 C6F14 -0.20695 ALUMINUMEND-PIP2 COMPOUND -0.06708 POLYETHE END-PIP2 * Port_Cards COMPOUND -0.55159 G10-PLAT -0.24599 COPPER -0.11531 KAPTONPORTCARD COMPOUND -0.02196 SNPB-SOL -0.01348 ALUMINUM -0.03085 POLYSTYRPORTCARD COMPOUND -0.01503 BAR-TIT -0.00559 SILICON PORTCARD * Service cylinder for FPIX COMPOUND -0.19850 FPIX-CYL -0.03370 END-ELE1 -0.03059 END-ELE2SERV-CYL COMPOUND -0.07007 END-COIL -0.29202 END-PIP1 -0.27296 END-PIP2SERV-CYL COMPOUND -0.09816 PORTCARD SERV-CYL COMPOUND -0.96869 CARBON-F -0.02167 G10-PLAT -0.00794 ALUMINUMSERV-CYL COMPOUND -0.14869 SI-NITR SERV-CYL COMPOUND -95.2 TUNGSTEN -4.8 SiO2 WCASTOR COMPOUND -1.0 ST.STEEL SCASTOR STOP