Search for the SM Higgs boson in the decay channel H→ZZ→llll Autumn 2012 (post ICHEP confernce note and discovery paper)

Introduction

This page aims to provide useful information on the Z→llll analysis.

Meetings

The weekly Z->4l meeting takes place on Thursday 5pm (CERN time).

Announcements

Evertbody need to be aware that in MC11c D3PD (p956) we have 2 trigger menu for electron and in some files you will just have variables for the first trigger menu and some other file the other trigger menu and in most of the files both trigger menu. This can cause trouble for D3PD skimming and for analysis code.

2011 versus 2012 Data and MC

There is quite some differences between 2011 and 2012 Data/MC condition, reconstruction and particle identification

2011
7 TeV p-p collisions
release 17.0.X
use GSF electrons
use a optimized "loose++" electron ID (need new SF for electron)

2012
8 TeV p-p collisions
more pile up with respect to 2011
release 17.2.X
new trigger menu with respect to 2011
new additional muons chambers on the detector with respect to 20121
use completly new electron recontstruction (GSF electrons by default) (huge modification for tracking and electron ID) (need cross check with new 2012 data and NEW SF)
use a optimized/pile up independant "multilepton" electron ID (need finalization of the electron ID and cross check with 2012 data and NEW SF for electron)
Because of the huge modification in electron reconstruction and ID we will need to derive on MC12 new cut values for (impact parameter sigificance, track and calorimeter isolation for electrons) and SF

2011 and 2012 will be treated as to inpendant analysis and may combined for limit/p0 extraction as two independand channel (decision will be taken later)

D3PD

We are using the HSG2D3PDs for this analysis. See HSG2DPDs for more details. Information on the filters: here


More... Close

2012 MC12a: "p1044/"

( MC12a samples list with p1044 )
Some of the MC12a samples with tag 'r3542_r3549_p1044/' are affected by the trigger configuration issue and you should use new digit+reco with tag : 'r3752_r3549_p1044/'
On top of that you should also applied the trigger fix to remove these events for safty : ( trigger fix twiki )


For the MC12a WH samples with tag 'e1217_s1469_s1470_r3752_r3549_p1044' there is configuration issue for the decay that lead to an underestimation of 100 of the cross section and you should use new correct WH samples with tag : 'e1419_s1499_s1504_r3658_r3549_p1044/'

ttbar
mc12_8TeV.105200.McAtNloJimmy_CT10_ttbar_LeptonFilter.merge.NTUP_HSG2.e1193_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.146369.McAtNloJimmy_CT10_ttbar_4LepMass_Mll40GeV12GeV.merge.NTUP_HSG2.e1270_s1469_s1470_r3542_r3549_p1044/
Z+jets
mc12_8TeV.107650.AlpgenJimmy_AUET2CTEQ6L1_ZeeNp0.merge.NTUP_HSG2.e1218_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.107651.AlpgenJimmy_AUET2CTEQ6L1_ZeeNp1.merge.NTUP_HSG2.e1218_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.107652.AlpgenJimmy_AUET2CTEQ6L1_ZeeNp2.merge.NTUP_HSG2.e1218_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.107653.AlpgenJimmy_AUET2CTEQ6L1_ZeeNp3.merge.NTUP_HSG2.e1218_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.107654.AlpgenJimmy_AUET2CTEQ6L1_ZeeNp4.merge.NTUP_HSG2.e1218_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.107655.AlpgenJimmy_AUET2CTEQ6L1_ZeeNp5.merge.NTUP_HSG2.e1218_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.107660.AlpgenJimmy_AUET2CTEQ6L1_ZmumuNp0.merge.NTUP_HSG2.e1218_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.107661.AlpgenJimmy_AUET2CTEQ6L1_ZmumuNp1.merge.NTUP_HSG2.e1218_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.107662.AlpgenJimmy_AUET2CTEQ6L1_ZmumuNp2.merge.NTUP_HSG2.e1218_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.107663.AlpgenJimmy_AUET2CTEQ6L1_ZmumuNp3.merge.NTUP_HSG2.e1218_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.107664.AlpgenJimmy_AUET2CTEQ6L1_ZmumuNp4.merge.NTUP_HSG2.e1218_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.107665.AlpgenJimmy_AUET2CTEQ6L1_ZmumuNp5.merge.NTUP_HSG2.e1218_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.107670.AlpgenJimmy_AUET2CTEQ6L1_ZtautauNp0.merge.NTUP_HSG2.e1218_s1469_s1470_r3753_r3549_p1044/
mc12_8TeV.107671.AlpgenJimmy_AUET2CTEQ6L1_ZtautauNp1.merge.NTUP_HSG2.e1218_s1469_s1470_r3753_r3549_p1044/
mc12_8TeV.107672.AlpgenJimmy_AUET2CTEQ6L1_ZtautauNp2.merge.NTUP_HSG2.e1218_s1469_s1470_r3605_r3549_p1044/
mc12_8TeV.107673.AlpgenJimmy_AUET2CTEQ6L1_ZtautauNp3.merge.NTUP_HSG2.e1218_s1469_s1470_r3605_r3549_p1044/
mc12_8TeV.107674.AlpgenJimmy_AUET2CTEQ6L1_ZtautauNp4.merge.NTUP_HSG2.e1218_s1469_s1470_r3753_r3549_p1044/
mc12_8TeV.107675.AlpgenJimmy_AUET2CTEQ6L1_ZtautauNp5.merge.NTUP_HSG2.e1218_s1469_s1470_r3605_r3549_p1044/
mc12_8TeV.146830.AlpgenJimmy_Auto_AUET2CTEQ6L1_ZeeNp0Excl_Mll10to60.merge.NTUP_HSG2.e1254_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.146831.AlpgenJimmy_Auto_AUET2CTEQ6L1_ZeeNp1Excl_Mll10to60.merge.NTUP_HSG2.e1254_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.146832.AlpgenJimmy_Auto_AUET2CTEQ6L1_ZeeNp2Excl_Mll10to60.merge.NTUP_HSG2.e1254_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.146833.AlpgenJimmy_Auto_AUET2CTEQ6L1_ZeeNp3Excl_Mll10to60.merge.NTUP_HSG2.e1254_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.146834.AlpgenJimmy_Auto_AUET2CTEQ6L1_ZeeNp4Excl_Mll10to60.merge.NTUP_HSG2.e1274_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.146840.AlpgenJimmy_Auto_AUET2CTEQ6L1_ZmumuNp0Excl_Mll10to60.merge.NTUP_HSG2.e1254_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.146841.AlpgenJimmy_Auto_AUET2CTEQ6L1_ZmumuNp1Excl_Mll10to60.merge.NTUP_HSG2.e1254_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.146842.AlpgenJimmy_Auto_AUET2CTEQ6L1_ZmumuNp2Excl_Mll10to60.merge.NTUP_HSG2.e1254_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.146843.AlpgenJimmy_Auto_AUET2CTEQ6L1_ZmumuNp3Excl_Mll10to60.merge.NTUP_HSG2.e1254_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.146844.AlpgenJimmy_Auto_AUET2CTEQ6L1_ZmumuNp4Excl_Mll10to60.merge.NTUP_HSG2.e1274_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.146850.AlpgenJimmy_Auto_AUET2CTEQ6L1_ZtautauNp0Excl_Mll10to60.merge.NTUP_HSG2.e1254_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.146851.AlpgenJimmy_Auto_AUET2CTEQ6L1_ZtautauNp1Excl_Mll10to60.merge.NTUP_HSG2.e1254_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.146852.AlpgenJimmy_Auto_AUET2CTEQ6L1_ZtautauNp2Excl_Mll10to60.merge.NTUP_HSG2.e1254_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.146853.AlpgenJimmy_Auto_AUET2CTEQ6L1_ZtautauNp3Excl_Mll10to60.merge.NTUP_HSG2.e1254_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.146854.AlpgenJimmy_Auto_AUET2CTEQ6L1_ZtautauNp4Excl_Mll10to60.merge.NTUP_HSG2.e1348_s1469_s1470_r3542_r3549_p1044/
Zbb
mc12_8TeV.146980.AlpgenJimmy_Auto_AUET2CTEQ6L1_4lFilter_ZeeNp0.merge.NTUP_HSG2.e1315_s1499_s1504_r3752_r3549_p1044/
mc12_8TeV.146981.AlpgenJimmy_Auto_AUET2CTEQ6L1_4lFilter_ZeeNp1.merge.NTUP_HSG2.e1315_s1499_s1504_r3542_r3549_p1044/
mc12_8TeV.146982.AlpgenJimmy_Auto_AUET2CTEQ6L1_4lFilter_ZbbeeNp2.merge.NTUP_HSG2.e1319_s1499_s1504_r3542_r3549_p1044/
mc12_8TeV.146985.AlpgenJimmy_Auto_AUET2CTEQ6L1_4lFilter_ZmumuNp0.merge.NTUP_HSG2.e1315_s1499_s1504_r3752_r3549_p1044/
mc12_8TeV.146986.AlpgenJimmy_Auto_AUET2CTEQ6L1_4lFilter_ZmumuNp1.merge.NTUP_HSG2.e1315_s1499_s1504_r3752_r3549_p1044/
mc12_8TeV.146987.AlpgenJimmy_Auto_AUET2CTEQ6L1_4lFilter_ZbbmumuNp2.merge.NTUP_HSG2.e1319_s1499_s1504_r3752_r3549_p1044/
mc12_8TeV.146990.AlpgenJimmy_Auto_AUET2CTEQ6L1_3lFilter_4lVeto_ZeeNp0.merge.NTUP_HSG2.e1315_s1499_s1504_r3752_r3549_p1044/
mc12_8TeV.146991.AlpgenJimmy_Auto_AUET2CTEQ6L1_3lFilter_4lVeto_ZeeNp1.merge.NTUP_HSG2.e1315_s1499_s1504_r3752_r3549_p1044/
mc12_8TeV.146992.AlpgenJimmy_Auto_AUET2CTEQ6L1_3lFilter_4lVeto_ZbbeeNp2.merge.NTUP_HSG2.e1319_s1499_s1504_r3752_r3549_p1044/
mc12_8TeV.146995.AlpgenJimmy_Auto_AUET2CTEQ6L1_3lFilter_4lVeto_ZmumuNp0.merge.NTUP_HSG2.e1315_s1499_s1504_r3542_r3549_p1044/
mc12_8TeV.146996.AlpgenJimmy_Auto_AUET2CTEQ6L1_3lFilter_4lVeto_ZmumuNp1.merge.NTUP_HSG2.e1315_s1499_s1504_r3542_r3549_p1044/
mc12_8TeV.146997.AlpgenJimmy_Auto_AUET2CTEQ6L1_3lFilter_4lVeto_ZbbmumuNp2.merge.NTUP_HSG2.e1319_s1499_s1504_r3542_r3549_p1044/
WZ
mc12_8TeV.161961.Sherpa_CT10_lllnu_WZ.merge.NTUP_HSG2.e1311_s1469_s1470_r3752_r3549_p1044/
ZZ
mc12_8TeV.116601.gg2ZZJimmy_AUET2CT10_ZZ4e.merge.NTUP_HSG2.e1273_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.116602.gg2ZZJimmy_AUET2CT10_ZZ4mu.merge.NTUP_HSG2.e1273_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.116603.gg2ZZJimmy_AUET2CT10_ZZ2e2mu.merge.NTUP_HSG2.e1273_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.126937.PowhegPythia8_AU2CT10_ZZ_4e_mll4_2pt5.merge.NTUP_HSG2.e1280_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.126938.PowhegPythia8_AU2CT10_ZZ_2e2mu_mll4_2pt5.merge.NTUP_HSG2.e1280_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.126939.PowhegPythia8_AU2CT10_ZZ_2e2tau_mll4_2pt5.merge.NTUP_HSG2.e1280_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.126940.PowhegPythia8_AU2CT10_ZZ_4mu_mll4_2pt5.merge.NTUP_HSG2.e1280_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.126941.PowhegPythia8_AU2CT10_ZZ_2mu2tau_mll4_2pt5.merge.NTUP_HSG2.e1280_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.126942.PowhegPythia8_AU2CT10_ZZ_4tau_mll4_2pt5.merge.NTUP_HSG2.e1280_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.167162.PowhegPythia8_AU2CT10_ZZ_4e_m4l100_150_mll4_4pt3.merge.NTUP_HSG2.e1486_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167163.PowhegPythia8_AU2CT10_ZZ_2e2mu_m4l100_150_mll4_4pt3.merge.NTUP_HSG2.e1486_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167165.PowhegPythia8_AU2CT10_ZZ_4mu_m4l100_150_mll4_4pt3.merge.NTUP_HSG2.e1486_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.161988.Sherpa_CT10_llll_ZZ_EW6_noHiggs.merge.NTUP_HSG2.e1346_s1499_s1504_r3658_r3549_p1044/
Signal Samples
ggf
mc12_8TeV.160152.PowhegPythia8_AU2CT10_ggH110_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160153.PowhegPythia8_AU2CT10_ggH115_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160154.PowhegPythia8_AU2CT10_ggH120_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.167220.PowhegPythia8_AU2CT10_ggH123_ZZ4lep.merge.NTUP_HSG2.e1437_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167222.PowhegPythia8_AU2CT10_ggH124_ZZ4lep.merge.NTUP_HSG2.e1437_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160155.PowhegPythia8_AU2CT10_ggH125_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.167225.PowhegPythia8_AU2CT10_ggH126_ZZ4lep.merge.NTUP_HSG2.e1437_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167227.PowhegPythia8_AU2CT10_ggH127_ZZ4lep.merge.NTUP_HSG2.e1437_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160156.PowhegPythia8_AU2CT10_ggH130_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160157.PowhegPythia8_AU2CT10_ggH135_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160158.PowhegPythia8_AU2CT10_ggH140_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160159.PowhegPythia8_AU2CT10_ggH145_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160160.PowhegPythia8_AU2CT10_ggH150_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160161.PowhegPythia8_AU2CT10_ggH155_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160162.PowhegPythia8_AU2CT10_ggH160_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160163.PowhegPythia8_AU2CT10_ggH165_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160164.PowhegPythia8_AU2CT10_ggH170_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160165.PowhegPythia8_AU2CT10_ggH175_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160166.PowhegPythia8_AU2CT10_ggH180_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160167.PowhegPythia8_AU2CT10_ggH185_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160168.PowhegPythia8_AU2CT10_ggH190_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160169.PowhegPythia8_AU2CT10_ggH195_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160170.PowhegPythia8_AU2CT10_ggH200_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160171.PowhegPythia8_AU2CT10_ggH220_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160172.PowhegPythia8_AU2CT10_ggH240_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160172.PowhegPythia8_AU2CT10_ggH240_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160173.PowhegPythia8_AU2CT10_ggH260_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160174.PowhegPythia8_AU2CT10_ggH280_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160175.PowhegPythia8_AU2CT10_ggH300_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160176.PowhegPythia8_AU2CT10_ggH320_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160177.PowhegPythia8_AU2CT10_ggH340_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160178.PowhegPythia8_AU2CT10_ggH360_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160179.PowhegPythia8_AU2CT10_ggH380_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160180.PowhegPythia8_AU2CT10_ggH400_ZZ4lep.merge.NTUP_HSG2.e1191_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160181.PowhegPythia8_AU2CT10_ggH420_ZZ4lep.merge.NTUP_HSG2.e1273_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160182.PowhegPythia8_AU2CT10_ggH440_ZZ4lep.merge.NTUP_HSG2.e1273_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160183.PowhegPythia8_AU2CT10_ggH460_ZZ4lep.merge.NTUP_HSG2.e1273_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160184.PowhegPythia8_AU2CT10_ggH480_ZZ4lep.merge.NTUP_HSG2.e1273_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160185.PowhegPythia8_AU2CT10_ggH500_ZZ4lep.merge.NTUP_HSG2.e1273_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160186.PowhegPythia8_AU2CT10_ggH520_ZZ4lep.merge.NTUP_HSG2.e1273_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160187.PowhegPythia8_AU2CT10_ggH540_ZZ4lep.merge.NTUP_HSG2.e1273_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160188.PowhegPythia8_AU2CT10_ggH560_ZZ4lep.merge.NTUP_HSG2.e1273_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160189.PowhegPythia8_AU2CT10_ggH580_ZZ4lep.merge.NTUP_HSG2.e1273_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160190.PowhegPythia8_AU2CT10_ggH600_ZZ4lep.merge.NTUP_HSG2.e1273_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.167878.Pythia8_AU2CTEQ6L1_ggH125_ZZ4lep.merge.NTUP_HSG2.e1591_s1499_s1504_r3658_r3549_p1044
mc12_8TeV.167877.Pythia8_AU2CTEQ6L1_ggH124_ZZ4lep.merge.NTUP_HSG2.e1591_s1499_s1504_r3658_r3549_p1044
mc12_8TeV.167876.Pythia8_AU2CTEQ6L1_ggH123_ZZ4lep.merge.NTUP_HSG2.e1591_s1499_s1504_r3658_r3549_p1044
VBF
mc12_8TeV.160202.PowhegPythia8_AU2CT10_VBFH110_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160203.PowhegPythia8_AU2CT10_VBFH115_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160204.PowhegPythia8_AU2CT10_VBFH120_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.167230.PowhegPythia8_AU2CT10_VBFH123_ZZ4lep.merge.NTUP_HSG2.e1437_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167232.PowhegPythia8_AU2CT10_VBFH124_ZZ4lep.merge.NTUP_HSG2.e1437_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160205.PowhegPythia8_AU2CT10_VBFH125_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.167235.PowhegPythia8_AU2CT10_VBFH126_ZZ4lep.merge.NTUP_HSG2.e1437_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167237.PowhegPythia8_AU2CT10_VBFH127_ZZ4lep.merge.NTUP_HSG2.e1437_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160206.PowhegPythia8_AU2CT10_VBFH130_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160207.PowhegPythia8_AU2CT10_VBFH135_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160208.PowhegPythia8_AU2CT10_VBFH140_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160209.PowhegPythia8_AU2CT10_VBFH145_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160210.PowhegPythia8_AU2CT10_VBFH150_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160211.PowhegPythia8_AU2CT10_VBFH155_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160212.PowhegPythia8_AU2CT10_VBFH160_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160213.PowhegPythia8_AU2CT10_VBFH165_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160214.PowhegPythia8_AU2CT10_VBFH170_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160215.PowhegPythia8_AU2CT10_VBFH175_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160216.PowhegPythia8_AU2CT10_VBFH180_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160217.PowhegPythia8_AU2CT10_VBFH185_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160218.PowhegPythia8_AU2CT10_VBFH190_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160219.PowhegPythia8_AU2CT10_VBFH195_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160220.PowhegPythia8_AU2CT10_VBFH200_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160221.PowhegPythia8_AU2CT10_VBFH220_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160222.PowhegPythia8_AU2CT10_VBFH240_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160223.PowhegPythia8_AU2CT10_VBFH260_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160224.PowhegPythia8_AU2CT10_VBFH280_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160225.PowhegPythia8_AU2CT10_VBFH300_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160226.PowhegPythia8_AU2CT10_VBFH320_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160227.PowhegPythia8_AU2CT10_VBFH340_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160228.PowhegPythia8_AU2CT10_VBFH360_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160229.PowhegPythia8_AU2CT10_VBFH380_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160230.PowhegPythia8_AU2CT10_VBFH400_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160231.PowhegPythia8_AU2CT10_VBFH420_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160232.PowhegPythia8_AU2CT10_VBFH440_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160233.PowhegPythia8_AU2CT10_VBFH460_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160234.PowhegPythia8_AU2CT10_VBFH480_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160235.PowhegPythia8_AU2CT10_VBFH500_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160236.PowhegPythia8_AU2CT10_VBFH520_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160237.PowhegPythia8_AU2CT10_VBFH540_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160238.PowhegPythia8_AU2CT10_VBFH560_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160239.PowhegPythia8_AU2CT10_VBFH580_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160240.PowhegPythia8_AU2CT10_VBFH600_ZZ4lep.merge.NTUP_HSG2.e1195_s1469_s1470_r3542_r3549_p1044/
WH
mc12_8TeV.160250.Pythia8_AU2CTEQ6L1_WH100_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160251.Pythia8_AU2CTEQ6L1_WH105_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160252.Pythia8_AU2CTEQ6L1_WH110_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160253.Pythia8_AU2CTEQ6L1_WH115_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160254.Pythia8_AU2CTEQ6L1_WH120_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167240.Pythia8_AU2CTEQ6L1_WH123_ZZ4lep.merge.NTUP_HSG2.e1436_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167242.Pythia8_AU2CTEQ6L1_WH124_ZZ4lep.merge.NTUP_HSG2.e1436_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160255.Pythia8_AU2CTEQ6L1_WH125_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167245.Pythia8_AU2CTEQ6L1_WH126_ZZ4lep.merge.NTUP_HSG2.e1436_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167247.Pythia8_AU2CTEQ6L1_WH127_ZZ4lep.merge.NTUP_HSG2.e1436_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160256.Pythia8_AU2CTEQ6L1_WH130_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160257.Pythia8_AU2CTEQ6L1_WH135_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160258.Pythia8_AU2CTEQ6L1_WH140_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160259.Pythia8_AU2CTEQ6L1_WH145_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160260.Pythia8_AU2CTEQ6L1_WH150_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160261.Pythia8_AU2CTEQ6L1_WH155_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160262.Pythia8_AU2CTEQ6L1_WH160_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160263.Pythia8_AU2CTEQ6L1_WH165_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160264.Pythia8_AU2CTEQ6L1_WH170_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160265.Pythia8_AU2CTEQ6L1_WH175_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160266.Pythia8_AU2CTEQ6L1_WH180_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160267.Pythia8_AU2CTEQ6L1_WH185_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160268.Pythia8_AU2CTEQ6L1_WH190_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160269.Pythia8_AU2CTEQ6L1_WH195_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160270.Pythia8_AU2CTEQ6L1_WH200_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160271.Pythia8_AU2CTEQ6L1_WH220_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160272.Pythia8_AU2CTEQ6L1_WH240_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160273.Pythia8_AU2CTEQ6L1_WH260_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160274.Pythia8_AU2CTEQ6L1_WH280_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160275.Pythia8_AU2CTEQ6L1_WH300_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160276.Pythia8_AU2CTEQ6L1_WH320_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160277.Pythia8_AU2CTEQ6L1_WH340_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160278.Pythia8_AU2CTEQ6L1_WH360_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160279.Pythia8_AU2CTEQ6L1_WH380_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160280.Pythia8_AU2CTEQ6L1_WH400_ZZ4lep.merge.NTUP_HSG2.e1419_s1499_s1504_r3658_r3549_p1044/
ZH
mc12_8TeV.160300.Pythia8_AU2CTEQ6L1_ZH100_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160301.Pythia8_AU2CTEQ6L1_ZH105_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160302.Pythia8_AU2CTEQ6L1_ZH110_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160303.Pythia8_AU2CTEQ6L1_ZH115_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160304.Pythia8_AU2CTEQ6L1_ZH120_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.167250.Pythia8_AU2CTEQ6L1_ZH123_ZZ4lep.merge.NTUP_HSG2.e1436_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167252.Pythia8_AU2CTEQ6L1_ZH124_ZZ4lep.merge.NTUP_HSG2.e1436_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160305.Pythia8_AU2CTEQ6L1_ZH125_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.167255.Pythia8_AU2CTEQ6L1_ZH126_ZZ4lep.merge.NTUP_HSG2.e1436_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167257.Pythia8_AU2CTEQ6L1_ZH127_ZZ4lep.merge.NTUP_HSG2.e1436_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.160306.Pythia8_AU2CTEQ6L1_ZH130_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160307.Pythia8_AU2CTEQ6L1_ZH135_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160308.Pythia8_AU2CTEQ6L1_ZH140_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160309.Pythia8_AU2CTEQ6L1_ZH145_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160310.Pythia8_AU2CTEQ6L1_ZH150_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160311.Pythia8_AU2CTEQ6L1_ZH155_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160312.Pythia8_AU2CTEQ6L1_ZH160_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160313.Pythia8_AU2CTEQ6L1_ZH165_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160314.Pythia8_AU2CTEQ6L1_ZH170_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160315.Pythia8_AU2CTEQ6L1_ZH175_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160316.Pythia8_AU2CTEQ6L1_ZH180_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160317.Pythia8_AU2CTEQ6L1_ZH185_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160318.Pythia8_AU2CTEQ6L1_ZH190_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160319.Pythia8_AU2CTEQ6L1_ZH195_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160320.Pythia8_AU2CTEQ6L1_ZH200_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160321.Pythia8_AU2CTEQ6L1_ZH220_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160322.Pythia8_AU2CTEQ6L1_ZH240_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160324.Pythia8_AU2CTEQ6L1_ZH280_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160325.Pythia8_AU2CTEQ6L1_ZH300_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160326.Pythia8_AU2CTEQ6L1_ZH320_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160327.Pythia8_AU2CTEQ6L1_ZH340_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160328.Pythia8_AU2CTEQ6L1_ZH360_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3542_r3549_p1044/
mc12_8TeV.160329.Pythia8_AU2CTEQ6L1_ZH380_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.160330.Pythia8_AU2CTEQ6L1_ZH400_ZZ4lep.merge.NTUP_HSG2.e1217_s1469_s1470_r3542_r3549_p1044/
ttH
mc12_8TeV.167560.Pythia8_AU2CTEQ6L1_ttH110_ZZ4lep.merge.NTUP_HSG2.e1461_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167561.Pythia8_AU2CTEQ6L1_ttH120_ZZ4lep.merge.NTUP_HSG2.e1461_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167562.Pythia8_AU2CTEQ6L1_ttH125_ZZ4lep.merge.NTUP_HSG2.e1461_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167563.Pythia8_AU2CTEQ6L1_ttH130_ZZ4lep.merge.NTUP_HSG2.e1461_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167564.Pythia8_AU2CTEQ6L1_ttH140_ZZ4lep.merge.NTUP_HSG2.e1461_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167565.Pythia8_AU2CTEQ6L1_ttH150_ZZ4lep.merge.NTUP_HSG2.e1461_s1499_s1504_r3658_r3549_p1044/
JHU
mc12_8TeV.167120.JHUPythia8_AU2CTEQ6L1_ggH125_Spin0p_ZZ4lep.merge.NTUP_HSG2.e1447_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167121.JHUPythia8_AU2CTEQ6L1_ggH125_Spin0m_ZZ4lep.merge.NTUP_HSG2.e1447_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167122.JHUPythia8_AU2CTEQ6L1_ggH125_Spin2p_ZZ4lep.merge.NTUP_HSG2.e1447_s1499_s1504_r3658_r3549_p1044/
mc12_8TeV.167123.JHUPythia8_AU2CTEQ6L1_ggH125_Spin2m_ZZ4lep.merge.NTUP_HSG2.e1447_s1499_s1504_r3658_r3549_p1044/
Other Samples
mc12_8TeV.147806.PowhegPythia8_AU2CT10_Zee.merge.NTUP_HSG2.e1169_s1469_s1470_r3573_r3549_p1044/
mc12_8TeV.147807.PowhegPythia8_AU2CT10_Zmumu.merge.NTUP_HSG2.e1169_s1469_s1470_r3752_r3549_p1044/
mc12_8TeV.161984.Sherpa_CT10_llll_ZZ_EW6.merge.NTUP_HSG2.e1346_s1499_s1504_r3658_r3549_p1044/

For 2012 Data 8 TeV use : "p1044_p1045/"

- Muon Stream : "p1044_p1045/"
- Egamma Stream : "p1044_p1045/"
- Debug Stream : "p1044_p1045/"

[p1084_p1086 is the four lepton filter]

Physics D3PD container for 2012 data: data12_8TeV.current.rtf


To produce similar lists of D3PD containers, use either:

  • Find patterns from tags:
    dq2-ls 'data12_8TeV.period*.physics_*.PhysCont.NTUP_HSG2.grp13_v01_p1044/'
  • List run-by-run containers:
    dq2-list-datasets-container data12_8TeV.periodA.physics_Egamma.PhysCont.NTUP_HSG2.grp13_v01_p1044/


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2011 MC11c: "p956/"

( MC11c samples list with p956 )
Some of the MC11c PowHeg samples with tag 'e1180_s1372_s1370_r3108_r3109_p956/' are affected by a bug you should use new one with tag : 'e1271_s1372_s1370_r3108_r3109_p956/'

special D3PD with correct MCTruthClassifier tag : "p1054/"
( MC11c samples list with p1054 )

For 2011 Data 7 TeV use : "p997/"

- Muon Stream : "p997/"
- Egamma Stream : "p997/"
- Debug Stream : "p993/"

Physics D3PD container for 2011 data :

data11_7TeV.periodB.physics_Egamma.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodD.physics_Egamma.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodE.physics_Egamma.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodF.physics_Egamma.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodG.physics_Egamma.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodH.physics_Egamma.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodI.physics_Egamma.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodJ.physics_Egamma.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodK.physics_Egamma.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodL.physics_Egamma.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodM.physics_Egamma.PhysCont.NTUP_HSG2.grp10_v01_p996/

data11_7TeV.periodB.physics_Muons.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodD.physics_Muons.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodE.physics_Muons.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodF.physics_Muons.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodG.physics_Muons.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodH.physics_Muons.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodI.physics_Muons.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodJ.physics_Muons.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodK.physics_Muons.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodL.physics_Muons.PhysCont.NTUP_HSG2.grp10_v01_p996/
data11_7TeV.periodM.physics_Muons.PhysCont.NTUP_HSG2.grp10_v01_p996/


Useful cross sections

For the signal and background cross sections used in the analysis please look here.
All the numbers can be found here :HiggsZZ4lUtils

Event Selection

This event selection is the starting point for Summer 2012.

Changes/outstanding items following the approval process are highlighted.
In the following:
mZ: nominal Z boson mass.
m4l: Reconstructed invariant 4-lepton mass.
ml1 l2 : reconstructed invariant mass of 1st and 2nd lepton in the quadruplet.
ml3 l4 : reconstructed invariant mass of 3st and 4nd lepton in the quadruplet.

Invariant mass variable recommendations:
2011
Muons: (*mu_*_pt), (*mu_*_eta), (*mu_*_phi), (*mu_*_E) .
Electrons : (*el_GSF_Et), (*el_GSF_tracketa), (*el_GSF_trackphi), (*el_GSF_cl_E),
where (*el_GSF_Et) = (*el_GSF_cl_E)/cosh((*el_GSF_tracketa))
2012
Muons: (*mu_*_pt), (*mu_*_eta), (*mu_*_phi), (*mu_*_E) .
Electrons : (*el_Et), (*el_tracketa), (*el_trackphi), (*el_cl_E),
where (*el_Et) = (*el_cl_E)/cosh((*el_tracketa))

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Event Preselection
GRL [data only] apply All_Good GRL for ALL final state (4e,4μ,2e2μ). GoodRunLists
LAr error [data only] remove all events that have LAr EventInfo error flag (larError==2 in D3PD) (data corruption). LAr Event Info twikipage
Rejection of bad / corrupted events [data only] remove all events that have tileError==2 in D3PD (data corruption). Rejection of bad / corrupted events
Rejection of bad / corrupted events [data only] remove all events that have coreFlags&0x40000!=0 in D3PD (data corruption).Rejection of bad / corrupted events
PileUp Reweighting 2011-2012 : apply pile up reweighting look table
<strike> Mu Rescaling <strike>2012 : apply mu rescaling look table
Vertex at least one reconstructed vertex with 3 associated tracks
z vertex 2012 : apply z vertex reweighting look table
Trigger lowest pT single or di lepton unprescaled triggers :
4mu single OR di muon trigger (see the Table)
2e2mu single OR di muon trigger OR single OR di electron trigger (see the Table)
4e single OR di electron trigger (see the Table )
Physics Object Selection
electron smearing and calibraion are applied to all electrons (except for the isLoosePlusPlus/Multilepton macro (see below)
2012 : NO electron crack calibration for 2012 data and MC12a
muon smaring is applied to all muons
Muons (MCP group recommendation link for 2011 )
(MCP group recommendation link for 2012)
μ-ID Use Staco CB+ST muons (mu_staco_*)) ((author==6 or author==7) and isStandAloneMuon==0)
Use CaloTag muons (mu_calo_*) (author==16) and (CaloMuonIDTag > 10 or <a rel="nofollow" href="https://twiki.cern.ch/twiki/bin/edit/AtlasProtected/CaloLRLikelihood?topicparent=AtlasProtected.HiggsZZllllAutumn2012;nowysiwyg=0" title="this topic does not yet exist; you can create tit">CaloLRLikelihood</a> > 0.9)
Use Staco <a rel="nofollow" href="https://twiki.cern.ch/twiki/bin/edit/AtlasProtected/StandAlone?topicparent=AtlasProtected.HiggsZZllllAutumn2012;nowysiwyg=0" title="this topic does not yet exist; you can create tit">StandAlone</a> muons (mu_staco_*) (author==6 and isStandAloneMuon==1)
Corrections 2011 MC : smearing
2012 MC : smearing
Kinematics Staco CB+ST muons pT>4 GeV, fabs( η)<2.7
CaloTag muons pT>15 GeV, fabs( η)<0.1
Staco StandAlone muons pT>4 GeV, fabs( η)>2.5, fabs( η)<2.7
ID/MS hits Staco CB+ST muons : apply the selection shown here: 2011 Table 2012 Table
<nop>CaloTag</nop> muons : apply the selection shown here: 2011 Table 2012 Table
Staco <nop>StandAlone</nop> muons : apply the selection shown here: 2011Table 2012 Table

Cosmic Cut
fabs(d0)< 1 mm (*mu_d0_exPV[i]) (where d0 is relative to the primary vertex) NOT for <a rel="nofollow" href="https://twiki.cern.ch/twiki/bin/edit/AtlasProtected/StandAloneMuons?topicparent=AtlasProtected.HiggsZZllllAutumn2012;nowysiwyg=0" title="this topic does not yet exist; you can create tit">StandAloneMuons</a>
Z0 Cut fabs(z0)<10. mm (*mu_z0_exPV[i]) NOT for <a rel="nofollow" href="https://twiki.cern.ch/twiki/bin/edit/AtlasProtected/StandAloneMuons?topicparent=AtlasProtected.HiggsZZllllAutumn2012;nowysiwyg=0" title="this topic does not yet exist; you can create tit">StandAloneMuons</a>
overlap removal reject CaloMuon (after muon ID cuts) if a Staco (after muon ID cuts) muon is within ΔR < 0.1 (use mu_*_id_[theta, phi] to compute ΔR)
reject StandaloneMuon (after muon ID cuts) if a Staco Segment Tag (after muon ID cuts) muon is within ΔR < 0.2 (use mu_*_[eta, phi] to compute ΔR)
Electrons (Egamma grouprecommendation link)
(Egamma group recommendation link for 2012)
Algorithm 2011 (author==1 or 3) with GSF and isLoosePlusPlusH4l e-ID (look table)
2012 (author==1 or 3) with GSF (default and only algorithm) and Multilepton e-ID (look table)
Corrections 2011 MC : crack calibration + smearing Data : crack calibration + calibration
2012 MC : smearing Data : calibration
Kinematics _ET> 7 GeV _ (EM cluster energy/track direction), fabs(ηCluster)<2.47
ObjectQuality <a target="_top" href="AtlasProtected.LArCleaningAndObjectQuality#Object_Quality">(el_GSF_OQ&1446)==0</a>
z0 Cut fabs(z0)<10. mm, (*el_GSF_trackz0pvunbiased[i])
Overlap Removal
e-e Electrons (after electron ID cuts) sharing the same ID-track, keep the electron with highest ET on the cluster.
2011 : el_*_track[d0, z0, theta, phi, qoverp]
2012 : el_Unrefittedtrack[d0, z0, theta, phi, qoverp]
e-e Electrons (after electron ID cuts) to close each other in eta and phi, keep the electron with highest ET on the cluster.
2012 : use el_cl_eta,el_cl_phi if fabs(Δeta)< 3*0.025 && fabs(Δphi) < 5*0.025 keep keep the electron with highest ET on the cluster
==Δphi = (fabs(phi_1-phi_2) > TMath::Pi()) ? 2*TMath::Pi()-fabs(phi_1-phi_2) : fabs(phi_1-phi_2)==
e-μ Electrons (after electron selection cuts) sharing the same ID-track with a muon candidate (within ΔR<0.02) are removed. <font color="#ff0000">
FOR MORIOND 2013 -> for CaloMUon we should keep the electron and not the muon but impact negligible .


2011 : el_*_track[eta, phi] and mu_*_id_[theta, phi]. η = -ln[tan[θ/2]]
2012 : el_Unrefittedtrack[eta, phi] and mu_*_id_[theta, phi]. η = -ln[tan[θ/2]]
e-jets Jets that overlap with electrons (after electron selection cuts) within ΔR < 0.2 are removed
llll selection
Number of Selected Leptons 4μ : At least 4 selected muons, 4e: At least 4 selected electrons, 2e2mu : At least 2muons and at least 2electrons.
Quadruplet Selection (DILS) Two same flavour (SF) and opposite sign (OS) lepton pairs. Within a quadruplet, the SFOS pairing that give the mass closest to the Z-boson is considered the primary di-lepton, and the other the secondary di-lepton.
The analysis to be split in 4 final states : 2μ2μ, 2e2μ, 2μ2e, 2e2e - where the primary di-lepton is mentioned first.
We allow maximum one 1 StandAlone muon OR 1 Calo muon per quadruplet
Kinematics The leptons in the quaduplet should satisfy the requirements _pT1>20 GeV, pT2>15 GeV, pT3>10 GeV _
Trigger Kinematics and Matching matching at least one (for single lepton triggers) or two (for dilepton triggers) of the leptons (see table and tool for the configuration)
With p956 and p997 some additional lines are needed (see TriggerMatching for p956 and p997)
The leptons passed to the trigger matching tool should satisfy the corresponding trigger thresholds. Just one of the chains needs to be matched ,if more than one has fired, for the event to pass.
2011 : use the pT / ET theshold listed here detaits
2012 : no pT / ET thehsold
Primary Di-Lepton Mass 50 GeV < m12 < 106 GeV
Secondary Di-Lepton Mass ml3 l4 >5 (or 0) GeV
ΔR of leptons in the quadruplet ΔR(li,lj)>0.10_ same flavor
ΔR(li,lj)>0.20 opposite flavor
J/ψ veto not decided now
Selection of one quadruplet Select only one quadruplet of leptons per event :
We select the quadruplets which have the primary di-lepton pair (ml1 l2 ) closest to on-shell Z, we next look for the 'most energetic' off-shell Z (ml3 l4 ), which corresponds to the highest off-shell Z mass
Track Isolation All leptons of the quadruplet relative track isolation (divided by Et for electron and by pt for muon)
2011 : [cone ΔR<0.20] <15%.
2012 : [cone ΔR<0.20] <15%.
Contribution of overlapping leptons from the quadruplet is removed for ΔR<0.20
using el_*_tracketa,el_*_trackphi for electrons and mu_*_eta and mu_*_phi for muons.
For overlapping electron you should substract el_*_trackpt and for muon 1/fabs(mu_*_id_qoverp)*sin(mu_*_id_theta)
(Since there is no ID track for StandAloneMuon, we don't remove overlapping StandAloneMuon)
Calo Isolation All leptons of the quadruplet relative calo isolation (divided by Et for electron and by pt for muon)
2011 : [cone ΔR<0.20] < 30% for muons and electrons BUT [cone ΔR<0.20] <15% for StandAlone muon
2012 : [cone ΔR<0.20] < 20% for electron, [cone ΔR<0.20] < 30% for muons BUT [cone ΔR<0.20] <15% for StandAlone muon
The contribution of an electron overlapping with another leptons is removed for ΔR<0.18 in all channels with electron : 4e and 2e2mu [see section 5.2.1 of the note]
2011 : For electron : Pile-Up correction (Etcone) : GetNPVCorrectedIsolation (look table)
and in case of overlaping electron you need to substract : el_cl_E/cosh(el_tracketa) and for ΔR : use el_*_tracketa,el_*_trackphi
2012 : For electron : Pile-Up correction (topo Etcone) : GetPtEDCorrectedTopoIsolation (look table)
and in case of overlaping electron you need to substract : el_rawcl_E/cosh(el_tracketa) and for ΔR : use el_etas2,el_phis2
<strike> For muon : Pile-Up correction :- CorrectEtCone </strike>
Impact Parameter Significance 2011 : All leptons of the quadruplet (this cut has no impact on <a rel="nofollow" href="https://twiki.cern.ch/twiki/bin/edit/AtlasProtected/StandAlone?topicparent=AtlasProtected.HiggsZZllllAutumn2012;nowysiwyg=0" title="this topic does not yet exist; you can create tit">StandAlone</a> muons and is safe) only if m4l < 190 GeV :
2012 : All leptons of the quadruplet (this cut has no impact on <a rel="nofollow" href="https://twiki.cern.ch/twiki/bin/edit/AtlasProtected/StandAlone?topicparent=AtlasProtected.HiggsZZllllAutumn2012;nowysiwyg=0" title="this topic does not yet exist; you can create tit">StandAlone</a> muons and is safe) :
For muons fabs( d0/σ(d0))<3.5 applied to all muons
For electrons fabs( d0/σ(d0))<6.5 applied to all electrons
Recommended variables : el_trackd0pvunbiased & el_tracksigd0pvunbiased and mu_*_trackIPEstimate_sigd0_unbiasedpvunbiased andmu_*_trackIPEstimate_d0_unbiasedpvunbiased
2012 MC12a :There is also an transverse impact parameter bias to be corrected in MC by subracting 2 μm off the measured value of the d0 :
for electrons el_trackd0pvunbiased-2.e-3
for muons mu_*_trackIPEstimate_d0_unbiasedpvunbiased-2.e-3
2012 MC12a : Also for MC it is recommended that IP is smeared to take into account detector mislaignment effects. Please look at <a target="_top" href="https://twiki.cern.ch/twiki/bin/viewauth/AtlasProtected/HiggsRecommendationsForSummer2012#Tracking">this wiki</a> for details.
random number : <a rel="nofollow" href="https://twiki.cern.ch/twiki/bin/edit/AtlasProtected/EventNumber?topicparent=AtlasProtected.HiggsZZllllAutumn2012;nowysiwyg=0" title="this topic does not yet exist; you can create tit">EventNumber</a> + 100 * muon (electron) index eta and pt : from the track execpt for <a rel="nofollow" href="https://twiki.cern.ch/twiki/bin/edit/AtlasProtected/StandAlone?topicparent=AtlasProtected.HiggsZZllllAutumn2012;nowysiwyg=0" title="this topic does not yet exist; you can create tit">StandAlone</a> Muon (mu_eta, mu_pt)

Trigger details


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Trigger details for trigger matching and trigger efficiency can be found in the table below and twiki

2011 MC Period Fraction with this Trigger Data Period Single electron threshold (matching) Di electron threshold (matching) Single muon thresold (matching) Di muon threshold (matching)
Period B-D 100% Period B-D e20_medium e 21 2e12_medium 2 e 13 EF_mu18_MG mu 20 EF_2mu10_loose 2 mu 12
Period E-H 100% Period E-H e20_medium e 21 2e12_medium 2 e 13 EF_mu18_MG mu 20 EF_2mu10_loose 2 mu 12
Period I-K 31.85% Period I e20_medium e 21 2e12_medium 2 e 13 EF_mu18_MG mu 20 EF_2mu10_loose 2 mu 12
  18.67% Period J e20_medium e 21 2e12_medium 2 e 13 EF_mu18_MG_medium mu 20 EF_2mu10_loose 2 mu 12
  49.48% Period K e22_medium e 23 2e12T_medium 2 e 13 EF_mu18_MG_medium mu 20 EF_2mu10_loose 2 mu 12
Period L-M 100% Period L-M e22vh_medium1 e 23 2e12Tvh_medium 2 e 13 EF_mu18_MG_medium mu 20 EF_2mu10_loose 2 mu 12

The fraction for the MC period I-K were we have 2 different trigger for electron and muon is computed using the lumi for period I,J or K /period I+J+K.
period I,J or K luminosty is retrived by the new pile up reweighting tool
Example for handling both electron and muon cases :

 
#include <TRandom3.h>
mutable TRandom3   random3;
//// For MC only
seed=physicsObject->mc_channel_number*physicsObject->EventNumber
random3.SetSeed(seed);
Double_t rd=random3.Uniform();
Double_t frac1=periodI/(periodI+periodJ+periodK);
Double_t frac2=(periodI+periodJ)/(periodI+periodJ+periodK);

if (rd<frac1){
 "trigger_mu18_MG";
}else {
 "trigger_mu18_MG_medium";
}
if (rd<frac2){
 "trigger_e20m"; 
 "trigger_2e12m";
}else {
 "trigger_e22m";
 "trigger_2e12Tm";
}

2011Trigger matcing for D3PD tag p956 and p997

Trigger matching details for trigger matching and trigger efficiency can be found in the table below and twiki
BUT
for D3PD tags p956 and p997
the following need to be set only for muon trigger matching

for "EF_2mu10_loose"

 
triggerNavigationVariables->set_trig_RoI_EF_mu_TrigMuonEFInfoContainerStatus(physicsObject->trig_RoI_EF_mu_TrigMuonEFInfoContainer_MuonEFInfoStatus);
triggerNavigationVariables->set_trig_RoI_EF_mu_TrigMuonEFInfoContainer(physicsObject->trig_RoI_EF_mu_TrigMuonEFInfoContainer_MuonEFInfo);
HERE called the trigger matching function for dimuon trigger

for "EF_mu18_MG" or "EF_mu18_MG_medium"

 
triggerNavigationVariables->set_trig_RoI_EF_mu_TrigMuonEFInfoContainerStatus(physicsObject->trig_RoI_EF_mu_TrigMuonEFInfoContainer_eMuonEFInfoStatus);
triggerNavigationVariables->set_trig_RoI_EF_mu_TrigMuonEFInfoContainer(physicsObject->trig_RoI_EF_mu_TrigMuonEFInfoContainer_eMuonEFInfo);
HERE called the trigger matching function for single muon trigger
 

More... Close

Trigger details for trigger matching and trigger efficiency can be found in the table below and twiki

2012 MC Period Fraction with this Trigger Data Period Single electron threshold (matching) not applied Di electron threshold (matching) not applied Single muon threshold (matching) not applied Di muon threshold (matching) not applied <strike>electron-muon threshold (matching) not applied
PeriodAllYear 100% Period A1-E5 e24vhi_medium1 OR e60_medium1 e 25 OR e 61 2e12Tvh_loose1 2 e 13 mu24i_tight OR mu36_tight mu 25 OR mu 37 2mu13 OR mu18_tight_mu8_EFFS 2 mu 14 OR mu 19 mu 9 <strike>e12Tvh_medium1_mu8 OR e24vhi_loose1_mu8 e 13 mu 11 OR e 25 mu 9

2012 Trigger matching

For electron and muon trigger matching, several methods such as matchDimuon, matchDimuon, and match are provided in TrigMuonEfficiency (the tag to be used for this package is given below. In 2012, we use both symmetric and asymmetric pT threshold dimuon triggers. In order to see whether a given di-muon object (muon1 and muon2) matches to a dimuon trigger item, one should first call the function

bool matchDimuon(const TLorentzVector& muon1,
                        const TLorentzVector& muon2,
                        const std::string& chain,
                        std::pair<bool, bool>& result1,
                        std::pair<bool, bool>& result2);

and then require

// the first condition is for muon1 as seeded, muon2 as full scan
// the second condition is for muon2 as seeded, muon1 as full scan
bool ismatched = ((result1.first && result2.second) || (result2.first && result1.second));

The higher pT threshold should be applied on the muon that acts the seed. For example adding the pT threshold requirement on EF_mu18_tight_mu8_EFFS trigger item should be done

  
bool ismatched_and_passptthreshold =  (  ( result1.first && result2.second && ( muons1.Pt() > 19000.0 ) && ( muons2.Pt() > 9000.0 ) )
                                                   || ( result2.first && result1.second && ( muons1.Pt() > 9000.0 ) && ( muons2.Pt() > 19000.0 ) ) )

Single electron, single muon or di-electron matching should be done as in 2011.

ID/MS Requirements

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ID/MS Hits for 2011
ID/MS Hits for 2011
cuts to apply for Staco/Muid CB+ST muons !expectBLayerHit || nBLHits > 0
nPixHits + nPixelDeadSensors > 1
nSCTHits + nSCTDeadSensors ≥ 6
nPixHoles + nSCTHoles < 3

n = nTRTHits + nTRTOutliers
if (|η| < 1.9): pass if n > 5 && nTRTOutliers < n*0.9
else if n > 5: pass if nTRTOutliers < n*0.9
else: pass
An example of the TRT + Outliers cut:
   Int_t n = (*mu_staco_nTRTHits)[mu_i] + (*mu_staco_nTRTOutliers)[mu_i];
   Double_t mu_eta = fabs((*mu_staco_eta)[mu_i]);
   Bool_t case1 = ((n > 5) && (*mu_staco_nTRTOutliers)[mu_i] < .9*n) ; //require n>5 && the # of trt outliers < .9n
   Bool_t case2 = (n > 5) ? ((*mu_staco_nTRTOutliers)[mu_i] < .9*n) : true ; //if n>5, we require the # of trt outliers < .9n
   Bool_t trt_ext = ( mu_eta < 1.9) ? case1 : case2 ; // if |eta| < 1.9, then case 1; if |eta|>=1.9, then case 2 
cuts to apply for CaloTag muons !expectBLayerHit || nBLHits > 0
nPixHits + nPixelDeadSensors > 1
nSCTHits + nSCTDeadSensors ≥ 6
nPixHoles + nSCTHoles < 3

n = nTRTHits + nTRTOutliers
if (|η| < 0.1): pass if n < 6 || nTRTOutliers < n*0.9
cuts to apply for StandaAlone muons Int_t mu_cscetahits=(*mu_staco_nCSCEtaHits)[mu_i];
Int_t mu_cscphihits=(*mu_staco_nCSCPhiHits)[mu_i];
Int_t mu_emhits=(*mu_staco_nMDTEMHits)[mu_i];
Int_t mu_eohits=(*mu_staco_nMDTEOHits)[mu_i];
mu_cscetahits+mu_cscphihits)>0 && mu_emhits>0 && mu_eohits>0

More... Close

ID/MS Hits for 2012
ID/MS Hits for 2012
cuts to apply for Staco/Muid CB+ST muons !expectBLayerHit || nBLHits > 0
nPixHits + nPixelDeadSensors >0 (was 1 in 2011)
nSCTHits + nSCTDeadSensors > 4 (was 5 in 2011)
nPixHoles + nSCTHoles < 3

n = nTRTHits + nTRTOutliers
if (0.1<|η| < 1.9): require if n > 5 && nTRTOutliers < n*0.9
else if (|η| < 0.1 or |η| ≥1.9): if n > 5 require nTRTOutliers < n*0.9
An example of the TRT + Outliers cut:
   Int_t n = (*mu_staco_nTRTHits)[mu_i] + (*mu_staco_nTRTOutliers)[mu_i];
   Double_t mu_eta = fabs((*mu_staco_eta)[mu_i]);
   Bool_t case1 = ((n > 5) && (*mu_staco_nTRTOutliers)[mu_i] < .9*n) ; //require n>5 && the # of trt outliers < .9n
   Bool_t case2 = (n > 5) ? ((*mu_staco_nTRTOutliers)[mu_i] < .9*n) : true ; //if n>5, we require the # of trt outliers < .9n
   Bool_t trt_ext = ( 0.1 < mu_eta < 1.9) ? case1 : case2 ; // if |eta| < 1.9, then case 1; if |eta|>=1.9 or |eta| <0.1 , then case 2 
cuts to apply for CaloTag muons !expectBLayerHit || nBLHits > 0
nPixHits + nPixelDeadSensors > 0
nSCTHits + nSCTDeadSensors > 4
nPixHoles + nSCTHoles < 3

n = nTRTHits + nTRTOutliers
if (|η| < 0.1): pass if n < 6 || nTRTOutliers < n*0.9
cuts to apply for StandaAlone muons Int_t mu_cscetahits=(*mu_staco_nCSCEtaHits)[mu_i];
Int_t mu_cscphihits=(*mu_staco_nCSCPhiHits)[mu_i];
Int_t mu_emhits=(*mu_staco_nMDTEMHits)[mu_i];
Int_t mu_eohits=(*mu_staco_nMDTEOHits)[mu_i];
mu_cscetahits+mu_cscphihits)>0 && mu_emhits>0 && mu_eohits>0

GoodRunList

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Currently for Data Periods: period B-M + fast reprocessing for few runs with an average total integrated lumonosity of 4583 pb^-1

Channel Name and Link Integrated Luminosity pb^-1
All channels GRL : All_Good.xml 4583

With GRLs "pro10-02" :
You can find the GRLs in /AFS :
/afs/cern.ch/atlas/groups/HSG2/GRL/data11_7TeV.periodAllYear_DetStatus-v36-pro10-02_CoolRunQuery-00-04-08_All_Good.xml

Good Run List twiki page to decide which version of the GRL to use

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Currently for Data Periods: period A1-E4 (almost full HCP dataset) with an average total integrated lumonosity of 13022 pb^-1

Channel Name and Link Integrated Luminosity pb^-1
All channels GRL : All_Good.xml 13022

With GRLs "pro13-04" :
You can find the GRLs in /AFS :
/afs/cern.ch/atlas/groups/HSG2/GRL/data12_8TeV.periodAllYear_DetStatus-v53-pro13-04_CoolRunQuery-00-04-08_All_Good.xml

Good Run List twiki page to decide which version of the GRL to use

2012 Data, Luminosity per Period

In this file you can find the luminosities (in μb^-1) for each period contained in the v47-pro13 GRLs (A3 to B14).

Data Period Fraction and PileUpReweighting

Some code for PileUpReweigthing

// Extended Pile up reweighting
Root::TPileupReweighting* PileUpTool = new Root::TPileupReweighting( "PileupReweightingTool" );

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string name_PU="";

MC11 c
name_PU="/afs/cern.ch/atlas/groups/HSG2/ExtendedPileUpReweight4l/MC11c.prw.root";


PileUpTool->SetUnrepresentedDataAction(2);
PileUpTool->AddConfigFile(name_PU);
PileUpTool->AddLumiCalcFile("/afs/cern.ch/atlas/groups/HSG2/ExtendedPileUpReweight4l/ilumicalc_2011_AllYear_All_Good.root");
PileUpTool->SetDefaultChannel(109292);
PileUpTool->Initialize();

periodB=PileUpTool->GetIntegratedLumi(177986,178109);
periodD=PileUpTool->GetIntegratedLumi(179710,180481);
periodE=PileUpTool->GetIntegratedLumi(180614,180776);
periodF=PileUpTool->GetIntegratedLumi(182013,182519);
periodG=PileUpTool->GetIntegratedLumi(182726,183462);
periodH=PileUpTool->GetIntegratedLumi(183544,184169);
periodI=PileUpTool->GetIntegratedLumi(185353,186493);
periodJ=PileUpTool->GetIntegratedLumi(186516,186755);
periodK=PileUpTool->GetIntegratedLumi(186873,187815);
periodL=PileUpTool->GetIntegratedLumi(188902,190343);
periodM=PileUpTool->GetIntegratedLumi(190503,191933);

In even loop :
Double_t mc_evt_weight=(*physicsObject->mcevt_weight)[0].at(0);
mu=averageIntPerXing;
double pileupEventWeightPeriofFractionWeight = PileUpTool->GetCombinedWeight(RunNumber,mc_channel_number,mu);

MC11 c
period for H->4l analysis Run number in MC11c data period represented conditions fraction in MC11c fraction in data for period B-M(pro10)
B-D 180164 B-D all FEBs ok 3.2% 3.88 %
E-H 183003 E-H 6 missing FEBs 17.4% 20.63 %
I-K 186169 I-K 4 FEBs restored 25.8% 25.72 %
L-M 189751 L-M 4 FEBs restored 53.5% 49.77 %

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MC12a
name_PU="/afs/cern.ch/atlas/groups/HSG2/ExtendedPileUpReweight4l/MC12a.prw.root";


PileUpTool->SetUnrepresentedDataAction(2);
PileUpTool->AddConfigFile(name_PU);
PileUpTool->AddLumiCalcFile("/afs/cern.ch/atlas/groups/HSG2/ExtendedPileUpReweight4l/ilumicalc_2012_AllYear_All_Good.root");
PileUpTool->SetDefaultChannel(160156);
PileUpTool->Initialize();

period2012A=PileUpTool->GetIntegratedLumi(200804,201556);
period2012B=PileUpTool->GetIntegratedLumi(202660,205113);
period2012C=PileUpTool->GetIntegratedLumi(206248,207397);
period2012D=PileUpTool->GetIntegratedLumi(207447,209025);
period2012E=PileUpTool->GetIntegratedLumi(209074,210308); // 2012 period E5

In even loop :
Double_t mc_evt_weight=( physicsObject->mcevt_weight)[0].at(0);
mu=averageIntPerXing;
double pileupEventWeightPeriofFractionWeight = PileUpTool->GetCombinedWeight(RunNumber,mc_channel_number,mu);

MC12 a
period for H->4l analysis Run number in MC12a data period represented conditions
AllYear 195847 AllYear -

More information

For th Z mass, use the one for the PDG (2010) : 91187.6 MeV

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Tag svn Path
GoodRunsLists-00-01-03 svn+ssh://svn.cern.ch/reps/atlasoff/DataQuality/GoodRunsLists/tags/
PileupReweighting-00-02-08 svn+ssh://svn.cern.ch/reps/atlasoff/PhysicsAnalysis/AnalysisCommon/PileupReweighting/tags/
MuonMomentumCorrections-00-07-01 svn+ssh://svn.cern.ch/reps/atlasoff/PhysicsAnalysis/MuonID/MuonIDAnalysis/MuonMomentumCorrections/tags/
MuonEfficiencyCorrections-02-01-05 svn+ssh://svn.cern.ch/reps/atlasoff/PhysicsAnalysis/MuonID/MuonIDAnalysis/MuonEfficiencyCorrections/tags/
MuonIsolationCorrection-00-08 svn+ssh://svn.cern.ch/reps/penn/schae/MuonIsolationCorrection/tags/
egammaAnalysisUtils-00-03-61 svn+ssh://svn.cern.ch/reps/atlasoff/Reconstruction/egamma/egammaAnalysis/egammaAnalysisUtils/tags/
HiggsZZ4lUtils-00-01-25 svn+ssh://svn.cern.ch/reps/atlasoff/PhysicsAnalysis/HiggsPhys/HSG2/HiggsZZ4lUtils/tags/
TrigMuonEfficiency-00-02-17 svn+ssh://svn.cern.ch/reps/atlasoff/Trigger/TrigAnalysis/TrigMuonEfficiency/tags/ + 'muon_trigger_sf_2012_AtoE.root' is available here /afs/cern.ch/user/t/takashi/public/SF2012/ + 'muon_trigger_sf_mc11c.root' is available /afs/cern.ch/user/t/takashi/public/muon_trigger_sf_mc11c.root

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Object goal when to use it code function package when to apply it seed of needed
Muon pT resolution (smearing) 2011 SmearingClass SmearingClass("Data11","staco" or "muid","q_pT","Rel17","MuonMomentumCorrections/share/") MuonMomentumCorrections MC SetSeed(EventNumber, i);
  pT resolution (smearing) 2012 SmearingClass SmearingClass("Data12","staco" or "muid","q_pT","Rel17.2","MuonMomentumCorrections/share/")     SetSeed(EventNumber, i);
      2011-2012 UseScale(1)     i index within mu_ branches
      2011-2012 UseImprovedCombine()      
      2011-2012 Event(ptms,ptid,pT,eta) if mu_isCombinedMuon      
      2011-2012 Event(pT,eta,"ID") if mu_isSegmentTaggedMuon      
      2011-2012 _Event(pT,eta,"ID") for CaloMuons _      
      2011-2012 Event(pT,eta,"MS") if isStandAloneMuon      
  Muon efficiencies (all) 2011 MuonEfficiencyCorrections config=Analysis::AnalysisMuonConfigurableScaleFactors::AverageOverPeriods;
config_sa=Analysis::AnalysisMuonConfigurableScaleFactors::Default;
std::string muon_type_staco ("STACO_CB_plus_ST_2011_SF.txt");
std::string muon_type_staco_sa("STACOHighEta.txt");
std::string muon_type_muid ("Muid_CB_plus_ST_2011_SF.txt");
std::string muon_type_muid_sa ("MuidHighEta.txt");
std::string muon_type_calo_mu ("CaloTag_2011_SF.txt");
MuidSCF=new Analysis::AnalysisMuonConfigurableScaleFactors (directory,muon_type_muid,unit,config);
MuidSCF->Initialise();
MuidSASCF=new Analysis::AnalysisMuonConfigurableScaleFactors (directory,muon_type_muid_sa,unit,config_sa);
MuidSASCF->Initialise();
StacoSCF=new Analysis::AnalysisMuonConfigurableScaleFactors (directory,muon_type_staco,unit,config);
StacoSCF->Initialise();
StacoSASCF=new Analysis::AnalysisMuonConfigurableScaleFactors (directory,muon_type_staco_sa,unit,config_sa);
StacoSASCF->Initialise();
CaloMuSCF=new Analysis::AnalysisMuonConfigurableScaleFactors (directory,muon_type_calo_mu,unit,config);
CaloMuSCF->Initialise();
Calo/StatoSA/MuidSASCF->scaleFactor(tlv);
Staco/MuidSCF->scaleFactor(tlv);
MuonEfficiencyCorrections MC n.a
  Muon efficiencies (all) 2012 MuonEfficiencyCorrections config=Analysis::AnalysisMuonConfigurableScaleFactors::AverageOverRuns;
config_sa=Analysis::AnalysisMuonConfigurableScaleFactors::AverageOverRuns;
std::string muon_type_staco ("STACO_CB_plus_ST_2012_SF.txt");
std::string muon_type_staco_sa("STACO_CB_plus_ST_2012_SFms.txt");
std::string muon_type_muid ("Muid_CB_plus_ST_2012_SF.txt");
std::string muon_type_muid_sa ("Muid_CB_plus_ST_2012_SFms.txt");
std::string muon_type_calo_mu ("CaloTag_2012_SF.txt");
MuidSCF=new Analysis::AnalysisMuonConfigurableScaleFactors (directory,muon_type_muid,unit,config);
MuidSCF->Initialise();
MuidSASCF=new Analysis::AnalysisMuonConfigurableScaleFactors (directory,muon_type_muid_sa,unit,config_sa);
MuidSASCF->Initialise();
StacoSCF=new Analysis::AnalysisMuonConfigurableScaleFactors (directory,muon_type_staco,unit,config);
StacoSCF->Initialise();
StacoSASCF=new Analysis::AnalysisMuonConfigurableScaleFactors (directory,muon_type_staco_sa,unit,config_sa);
StacoSASCF->Initialise();
CaloMuSCF=new Analysis::AnalysisMuonConfigurableScaleFactors (directory,muon_type_calo_mu,unit,config);
CaloMuSCF->Initialise();
Muid/StacoSCF->scaleFactor(charge,tlv);
CaloSCF->scaleFactor(tlv);
MuonEfficiencyCorrections MC n.a
  Calorimeter Isolation not used CorrectCaloIso CorrectEtCone(mu_etcone20,nPV(n_tracks>=3),mu_eta,"cone20Comb") MuonIsolationCorrection Data and MC n.a
  Trigger-Offline matching 2011-2012 TrigMuonEfficiency muonTriggerMatchTool->match(mu_eta, mu_phi,chain);pt>thresold TrigMuonEfficiency Data and MC n.a
        muonTriggerMatchTool->matchDimuon(tlv_mu1, mu2,chain,res1,res2);res1.first && res2.first&&pt1>thresold1 &&pt2>thresold2;      
  muon efficiencies (trigger) 2011 TrigMuonEfficiency leptonSF = new LeptonTriggerSF(2011, "TrigMuonEfficiency/share/", "muon_trigger_sf_mc11c.root");
runnumber_sf=PileUpTool->GetRandomRunNumber(physicsObject->RunNumber);p=loosepp;q=loose;
pair SF = SF = leptonSF->GetTriggerSF(runnumber_sf,false, muons, q, electrons, p, 0);SF.first
TrigMuonEfficiency MC n.a
  muon efficiencies (trigger) 2012 TrigMuonEfficiency leptonSF = new LeptonTriggerSF(2012, "TrigMuonEfficiency/share", "muon_trigger_sf_2012_AtoE.root ");
/afs/cern.ch/user/t/takashi/public/SF2012/muon_trigger_sf_2012_AtoD.root
runnumber_sf=PileUpTool->GetRandomRunNumber(physicsObject->RunNumber);p=ML;q=loose;
pair SF = SF = leptonSF->GetTriggerSF(runnumber_sf,false, muons, q, electrons, p, 0);SF.first
TrigMuonEfficiency MC n.a
Electron Energy correction initialisation 2011 EnergyRescalerUpgrade Init("egammaAnalysisUtils/share/EnergyRescalerData.root","2011","es2011a"); egammaAnalysisUtils Data/MC n.a
    2012 EnergyRescalerUpgrade Init("egammaAnalysisUtils/share/EnergyRescalerData.root","2012","es2012"); egammaAnalysisUtils Data/MC n.a
  Energy correction (scale) 2011-2012 EnergyRescalerUpgrade applyEnergyCorrection(Eta, E, egRescaler::EnergyRescalerUpgrade::Electron, egRescaler::EnergyRescalerUpgrade::Nominal,1.0,RunNumber); egammaAnalysisUtils Data n.a
  Energy correction for the crack (scale) 2011 EnergyRescalerUpgrade applyMCCalibration(Eta, Et, egRescaler::EnergyRescalerUpgrade::Electron) egammaAnalysisUtils Data AND MC n.a
  Energy resolution (smearing) 2011-2012 EnergyRescalerUpgrade getSmearingCorrection(Eta, E, egRescaler::EnergyRescalerUpgrade::NOMINAL egammaAnalysisUtils MC SetRandomSeed(EventNumber+100*i)
              i index within el_ branches
  Electron efficiencies (ID) 2011 egammaSFclass RunNumber=PileUpTool->GetRandomRunNumber(physicsObject->RunNumber);
scaleFactor(el_cl_eta Et, 5, 0, 6, 1,RunNumber)
egammaAnalysisUtils MC n.a
  Electron efficiencies (reco) 2011 egammaSFclass RunNumber=PileUpTool->GetRandomRunNumber(physicsObject->RunNumber);
scaleFactor(el_cl_eta, Et, 4, 0, 6, 1,RunNumber)
egammaAnalysisUtils MC n.a
  Electron efficiencies (ID) 2012 egammaSFclass RunNumber=PileUpTool->GetRandomRunNumber(physicsObject->RunNumber);
scaleFactor(el_cl_eta Et, 30, 0, 8, 1,RunNumber)
egammaAnalysisUtils MC n.a
  Electron efficiencies (reco) 2012 egammaSFclass RunNumber=PileUpTool->GetRandomRunNumber(physicsObject->RunNumber);
scaleFactor(el_cl_eta, Et, 4, 0, 8,1, RunNumber)
egammaAnalysisUtils MC n.a
  Calorimeter Isolation 2011 CaloIsoCorrection GetNPVCorrectedIsolation(unsigned int nPV, etaS2, radius, is_mc, Etcone_value, CaloIsoCorrection::ELECTRON); egammaAnalysisUtils Data and MC n.a
  Calorimeter Isolation 2012 CaloIsoCorrection GetPtEDCorrectedTopoIsolation(argument of this function); egammaAnalysisUtils Data and MC n.a
  Trigger-Offline matching 2011-2012 TrigMuonEfficiency electronTriggerMatchTool->match(el_tracketa, el_trackphi,chain);Et>thresold TrigMuonEfficiency Data and MC n.a
  Electron efficiencies (trigger) 2011 TrigMuonEfficiency leptonSF = new LeptonTriggerSF(2011, "TrigMuonEfficiency/share/", "muon_trigger_sf_mc11c.root");
runnumber_sf=PileUpTool->GetRandomRunNumber(physicsObject->RunNumber);p=loosepp;q=loose;
pair SF = SF = leptonSF->GetTriggerSF(runnumber_sf,false, muons, q, electrons, p, 0);SF.first
TrigMuonEfficiency MC n.a
  Electron efficiencies (trigger) 2012 TrigMuonEfficiency leptonSF = new LeptonTriggerSF(2012, "TrigMuonEfficiency/share", "muon_trigger_sf_2012_AtoE.root ");
/afs/cern.ch/user/t/takashi/public/SF2012/muon_trigger_sf_2012_AtoD.root
runnumber_sf=PileUpTool->GetRandomRunNumber(physicsObject->RunNumber);p=ML;q=loose;
pair SF = SF = leptonSF->GetTriggerSF(runnumber_sf,false, muons, q, electrons, p, 0);SF.first
TrigMuonEfficiency MC n.a
  H4l Loose++ ID macro 2011 isLoosePlusPlusH4l isLoosePlusPlusH4l(el_eta_s2,Et_cl_s2_uc,rHad_uc, rHad1_uc,Reta, w2,f1,wstot,DEmaxs1,deltaEta,nSi,nSiOutliers,nPix,nPixOutliers,false,false) HiggsZZ4lUtils Data and MC n.a
  MultiLepton ID macro 2012 passMultiLepton passMultiLepton(argument of this function) egammaAnalysisUtils Data and MC n.a
Pileup-reweighting Pileup-reweighting 2011-2012 PileupReweighting TPileupReweighting(see section : "Data Period Fraction and PileUpReweighting") PileupReweighting MC n.a
Mu Rescaling mu rescaling not used PileupReweighting PileUpTool->SetDataScaleFactors(1/1.11); PileupReweighting MC n.a
        That minbias analysis concludes to scale the MC by a factor of 1.11. Scaling MC can be done with the tool (using SetMCScaleFactors), but, because the mc mu distribution is discrete, unless you are careful about rebinning the mu distribution after rescaling, you will end up with holes in it. This is possible to do with the tool (AddBinning to redefine the binning for the mu distribution, probably using variable bin widths) but in the end it seemed more trouble than it was worth when instead of scaling the MC by 1.11, we could scale the Data by 1/1.11, which is going to be approximately equivalent. So rather than shifting the mc mu distribution up, we shift the data mu distribution down. We do this with: SetDataScaleFactors(1./1.11)      
Good Run List Selection of good runs and lbs 2011-2012 GoodRunList HasRunLumiBlock GoodRunLists Data n.a
Z vertex reweighting z vertex reweighting 2012 VertexPositionReweightingTool ZVertexTool->GetWeight(vxp_z);vxp_z=(*physicsObject->mc_vx_z)[2]; egammaAnalyisUtils MC n.a


ptms =(1/fabs((*TreeObject->mu_me_qoverp)[i])*sin((*TreeObject->mu_me_theta)[i]));
ptid =(1/fabs((*TreeObject->mu_id_qoverp)[i])*sin((*TreeObject->mu_id_theta)[i]));
int_lum, unit, directory : see MCP twiki for more details
Et (electron): el_cl_E/cosh(el_tracketa)
Et_cl (electron): el_cl_E/cosh(el_cl_eta)
Et_cl_s2_uc (electron): el_cl_E_uc/cosh(el_eta_s2)
el_eta_s2=el_etas2
rHad_uc=((el_Ethad))/Et_cl_s2_uc
rHad1_uc=((el_Ethad1))/Et_cl_s2_uc
Reta=(el_reta)
w2=(el_weta2)
f1=(el_f1)
wstot=(el_wstot)
DEmaxs1=( (el_emaxs1)-(*TreeObject->el_Emax2))/( (el_emaxs1)+(el_Emax2))
deltaEta=(el_deltaeta1)
nSi=(el_nSiHits)
nSiOutliers=(el_nSCTOutliers)+(el_nPixelOutliers)
nPix=(el_nPixHits)
nPixOutliers=(el_nPixelOutliers)
chain="EF_e20_medium", ...
mc_with_constant_term=1 for MC11a,b',b and 0 for MC11c
vector<TLorentzVector> electrons
vector<TLorentzVector> muons
electron_quality p=loosepp
muon_quality q=loose
vxp_z=mc_vx_z)[2]

Cut Flows

Samples not decided

Spreadsheets, divided in three channels (4e, 2e2mu and 4mu, where electrons are GSF and muons are STACO) are organized are follows:

MC12
MC11 c

Background Controls

Systematic Uncertainties


Major updates: -- BingLi - 09-Nov-2012


%REVIEW% Never reviewed


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