MSSM Neutral Higgs

Group Members

In case of questions or problems, please report them to all the conveners.

Bibliography

If you use the ROOT files from 2016 and earlier provided on this webpage, please follow the citation guide shifted to this file.
If you use the ROOT files from 2018 and later provided on this webpage, you must cite a fraction of the subsequent technical papers.
Which papers need to be cited depends on which cross sections and branching ratios your analysis is using, see the citation guide right after the list of bibliography. If you are in doubt, ask the group members!
Also don't forget to cite the publications that suggested the benchmark scenarios. Those are listed next to the ROOT files.
Relevant publications:

  1. FeynHiggs program
    • Heinemeyer:1998yj, Heinemeyer:1998np, Degrassi:2002fi, Frank:2006yh, Hahn:2013ria, Bahl:2016brp, Bahl:2017aev
  2. HDECAY
    • Djouadi:1997yw, Djouadi:2018xqq
  3. Work of the BR subgroup, which is based upon the publications given in this tex-file.
  4. SusHi program
    • Harlander:2012pb, Harlander:2016hcx
  5. ggH NLO massive
    • Spira:1995rr
  6. (N)NLO (S)QCD corrections for h/H/A
    • Harlander:2004tp (NLO-stop scalar mh=0)
    • Harlander:2005rq (NLO-top/bottom)
    • Degrassi:2010eu (NLO-sbottom scalar)
    • Degrassi:2011vq (NLO-stop/sbottom pseudo mA != 0)
    • Degrassi:2012vt (NLO-stop scalar mH != 0)
  7. ggH NNLO for scalar Higgs
    • Harlander:2002wh, Anastasiou:2002yz, Ravindran:2003um
  8. ggH NNLO for pseudoscalar Higgs
    • Harlander:2002vv, Anastasiou:2002wq
  9. ggH N3LO for scalar Higgs in threshold expansion
    • Anastasiou:2014lda, Anastasiou:2015yha, Anastasiou:2016cez
  10. Electroweak corrections by light fermions
    • Aglietti:2004nj, Bonciani:2010ms
  11. bbh@nnlo (5FS) program
    • Harlander:2003ai
  12. bbH NLO (4FS)
    • Dittmaier:2003ej, Dawson:2003kb
  13. bbH matched predictions
    • Bonvini:2015pxa, Bonvini:2016fgf, Forte:2015hba, Forte:2016sja
  14. Charged Higgs cross sections
    • Berger:2003sm, Dittmaier:2009np, Flechl:2014wfa, Degrande:2015vpa, Degrande:2016hyf

Citation guide

In the first place, please cite the LHC Higgs cross-section working group for providing cross-sections and BRs (by citing the Yellow Reports).

For all except the hMSSM, Higgs masses and mixing (and effective Yukawa couplings) have been calculated with Feynhiggs [1]. Whereas in the hMSSM branching ratios are solely computed with HDECAY [2], all other scenarios combine the most precise results of FeynHiggs [1], HDECAY [2] and PROPHECY4f. Relevant references are listed in [3], see LHCHXSWG-2015-002, page 10 bottom, for an example how to cite them.

If your analysis makes use of gluon-fusion cross sections, bottom-quark initiated production or charged Higgs production, then please cite the corresponding block of references as follows:

* For the gluon-fusion process inclusive cross sections are obtained with SusHi [3], which includes NLO QCD corrections [5], NNLO QCD corrections for the top-quark contribution in the effective theory of a heavy top quark [7,8] and electroweak effects by light quarks [10].
For all scenarios but the hMSSM and the EFT scenarios please add:
SusHi includes NLO supersymmetric-QCD corrections [6] in expansions of heavy SUSY masses.
If you make use of the cross sections of the SM-like Higgs boson at 125 GeV please add:
For the SM-like Higgs boson SusHi adds N3LO corrections in the effective theory of a heavy top quark in a threshold expansion [9].

* Cross sections for bottom-quark initiated Higgs production rely on matched predictions [13], which are based on the five flavour NNLO QCD calculation [11] and the four flavour NLO QCD calculation [12].

* Charged Higgs cross sections for charged Higgs masses in the window 200-1400GeV at 8TeV, 145-2000GeV at 13TeV and 200-600GeV at 14TeV are determined from the predictions provided in Refs. [14] by applying the reweighting procedure explained on the webpage of the charged Higgs subgroup.

Also don't forget to cite the publications, which suggested the benchmark scenarios. Those are listed next to the ROOT files.

Current recommendation for interpretation

  • 2018 MSSM benchmark scenarios are recommended to be used for for interpretations.
  • ROOT file version from 2016 is still the recommended for hMSSM.

2018 Content of the ROOT files

Higgs masses, cross sections (including uncertainties) and branching ratios for different MSSM benchmark scenarios are provided in terms of 2 dimensional ROOT histograms usually scanning over the m_A-tanβ plane. In detail the histograms contain:

  • masses and widths of the scalar bosons h/H/A/Hp.
  • cross sections for gluon-gluon fusion h/H/A production (top at N^3LO QCD, bottom and top-bottom interference at NLO QCD, partially with SUSY QCD (SQCD) and electroweak (EW) contributions) including scale and PDF(+α_s) uncertainties.
  • cross sections for b-associated h/H/A production in the SCET/FONLL scheme including uncertainties.
  • cross sections for charged Higgs production including uncertainties (charged Higgs masses between 200-1400GeV at 8TeV, 145-2000GeV at 13TeV and 200-600GeV at 14TeV).
  • branching ratios of h/H/A/Hp to various SM and SUSY particles, see also BR subgroup.

The structure of the histograms is rather complicated. To ensure that the numbers are extracted properly, a simple C++ class is provided. Details can be found below.

Access tool for the ROOT files

For the benchmark scenarios released in 2018 we provide a new version of the access tool v2.0, which is not compatible with the old ROOT files. We keep the old access tool for compatibility.

ALERT! Please note that for all access tools the cross section predictions (and uncertainties) are consistently provided in pb .

  • Access tool version 0.5 (for 7 and 8 TeV): Download the header file and the implementation file. For information about the usage, please consult the header file, or use the help() method of the class, which will explain all available methods. On initialization with an input file, some information on the used MSSM parameters is also printed out on screen. The accessor tool has been tested with ROOT stand-alone and was tested to be compiled stand-alone GCC4.4. Please remove the "v_1.0" tag at the end of the files. To work with the access tool you have to include the corresponding C++ class. help() gives you a list of the available commands. Example calls can be found here.

  • Access tool version 1.0 (for (8,) 13 and 14 TeV): Download the header file and the implementation file and the python wrapper. Please remove the "v_1.0" tag at the end of the files. To work with the access tool you have to include the corresponding C++ class. First a shared library has to be compiled. Example calls can be found here.

  • Access tool version 2.1 (for 8, 13 (and 14 TeV)): Download the header file and the implementation file and the python wrapper. Please remove the "v_2.1" tag at the end of the files. To work with the access tool you have to include the corresponding C++ class. First a shared library has to be compiled. The ROOT files were generated with ROOT 6.13. Older ROOT versions might have problems in reading the content. The routines are mostly identical to tool version 1.0 with the following exceptions: The 4FS/5FS/Santander matched cross sections for bottom-quark annihilation are replaced with SCET/FONLL numbers, which are accessed through bbH_A/H/h. Also charged Higgs cross sections are available now. For the naming conventions and the implemented uncertainties please check the routines that can be found in mssm_xs_tools.h. From 2.0 to 2.1 the python wrapper was updated.
         root -l
         .L mssm_xs_tools.C++
         
    Then either the python wrapper or the .C file could be used:
         mssm=mssm_xs_tools("mh125_13.root",true,0)   // "true" enables interpolation between the grid points, "0" avoids messages by the access tool, set to "3" or "100" for additional information
         mssm.mass("H",300,3)   
         mssm.width("H",300,3)   
         mssm.br("H-­>tautau",300,3)   
         mssm.xsec("gg->H",300,3)   
         

ROOT histograms: 2018 MSSM benchmark scenarios for 8, 13 (and 14 TeV) - Access tool version 2.0/2.1

Subsequently you find ROOT histograms for the MSSM benchmark scenarios defined in:
"MSSM Higgs Boson Searches at the LHC: Benchmark Scenarios for Run 2 and Beyond"
Emanuele Bagnaschi, Henning Bahl, Elina Fuchs, Thomas Hahn, Sven Heinemeyer, Stefan Liebler, Shruti Patel, Pietro Slavich, Tim Stefaniak, Carlos E.M. Wagner, Georg Weiglein
arXiv:1808.07542

Most scans in the m_A-tanβ-plane have been made between m_A=70 GeV and m_A=2600 GeV and between tanβ=0.5 and 60.
ROOT histograms:

January 2019: Updated to include Yb*Yt term in bbh XS.
No further changes to be expected. Only additional information will be added, like branching ratios of the heavy Higgs bosons into individual pairs of electroweakinos.

  • $M_h^{125}$(alignment)
    • This scenario yields a SM-like Higgs boson h also for low values of mA at about tanβ=7 due to alignment. In contrast to the definition in arXiv:1808.07542 the ROOT files start only at mA > 120 GeV due to a theoretically inaccessible region at low mA < 120 GeV and tanβ>10.
    • mh125_align_8.root: 8 TeV, tanβ= 1-20, mA = 120-1000 GeV
    • mh125_align_13.root: 13 TeV, tanβ= 1-20, mA = 120-1000 GeV
    • mh125_align_14.root: 14 TeV, tanβ= 1-20, mA = 120-1000 GeV

Charged Higgs cross sections have a limited range in the charged Higgs boson masses, see above. Scenarios named in orange are obtained with the setup that will be described in a public note of the LHCHXSWG. The setup equals mostly the one presented in arXiv:1808.07542.

ROOT histograms: 2013-2016 MSSM benchmark scenarios for (8,) 13 and 14 TeV - Access tool version 1.0

Subsequently you find ROOT histograms for the MSSM benchmark scenarios defined in:
"MSSM Higgs Boson Searches at the LHC: Benchmark Scenarios after the Discovery of a Higgs-like Particle"
M. Carena, S. Heinemeyer, O. Stål, C.E.M. Wagner, G. Weiglein
arXiv:1302.7033

Most scans in the m_A-tanβ-plane have been made between m_A=90 GeV and m_A=2000 GeV and between tanβ=0.5 and 60.
ROOT histograms for 13 and 14 TeV as well as for the low-tanβ-high scenario/hMSSM:

ALERT! 27.05.2016: Update of the (8,) 13 and 14TeV ROOT histograms with corrected bbH cross sections .

  • hMSSM files: Produced with SusHi 1.4.1 (with 2HDM input)+ bbH (4FS) (including Yt*Yb terms) and green ggH and bbH choices
    • hMSSM_8TeV.root: 8 TeV, tanβ= 0.8-60, mA = 130-1000 GeV (updated 27.05.2016)
    • hMSSM_13TeV.root: 13 TeV, tanβ= 0.8-60, mA = 130-1000 GeV (updated 27.05.2016). Bug found in May 2018: Please be aware that the heavy Higgs gluon-fusion cross section (`xs_gg_H` histogram in the .root file) contains some duplicated values along tanb (tanb having a stepsize of 0.1 at lower tanb). If you need cross section values at this resolution, please contact the MSSMNeutral team to request the original ASCII file.

  • mh-mod- files

  • light stop files : The scenario differs from the original one in arXiv:1302.7033 by M1=350 GeV, M2=μ=400 GeV to avoid bounds from direct stop searches.

Scenarios named in green are obtained with the following setup:
FeynHiggs 2.10.2 with default flags + SusHi 1.4.1 (=1.5.0) + bbH (4FS) (including Yt*Yb terms)

  • ggH choices:
    • μ_R=μ_F=m_Phi/2.
    • Scale uncertainties: Seven combinations of scales μ_R=μ_F={m_Phi/4,m_Phi/2,m_Phi} with the constraint 1/2 ≤ μ_R/μ_F ≤ 2
    • PDF(+α_s) uncertainties: obtained for a SM Higgs boson with corresponding mass using MSTW2008
  • bbH (5FS) choices:
    • μ_R= m_Phi, μ_F=0.25*m_Phi.
    • Scale uncertainties: Seven combinations of scales μ_R={m_Phi/2,m_Phi,2m_Phi} and μ_F={m_Phi/8,m_Phi/4,m_Phi/2} with the constraint 2 ≤ μ_R/μ_F ≤ 8
    • PDF(+α_s) uncertainties: obtained for a SM Higgs boson with corresponding mass using MSTW2008
  • For the SM input to FeynHiggs and SusHi we refer to the bottom of the page.

ROOT histograms: <2013 MSSM benchmark scenarios for 7 and 8 TeV - Access tool version 0.5

The scans in the m_A-tanβ-plane have been made between m_A=90 GeV and m_A=1000 GeV and between tanβ=1 and 60. For lower values of tanβ between 0.5 and 0.9 seperate ROOT histograms are available. Differences with respect to this procedure are highlighted.

Scenarios named in red are obtained with the following setup:
FeynHiggs 2.8.6 with default flags + SusHi 1.0.6 + bbH (4FS) scans

  • ggH scale choices:
    • μ_R=μ_F=m_Phi.
    • Scale variation: 0.5*m_Phi < μ_R, μ_F < 2*m_Phi
  • bbH (5FS) scale choices:
    • μ_R= m_Phi, μ_F=0.25*m_Phi.
    • Scale variation: 0.2*m_Phi < μ_R < 5*m_Phi ; 0.1*m_Phi < μ_F < 0.7*m_Phi

Scenarios named in blue are obtained with the following setup:
HIGLU + ggH@NNLO + bbH@NNLO (5FS) + bbH (4FS) scans

  • ggH scale choices:
    • μ_R=μ_F=m_Phi.
    • Scale variation: 0.5*m_Phi < μ_R, μ_F < 2*m_Phi
  • bbH (5FS) scale choices:
    • μ_R= m_Phi, μ_F=0.25*m_Phi.
    • Scale variation: 0.2*m_Phi < μ_R < 5*m_Phi ; 0.1*m_Phi < μ_F < 0.7*m_Phi

Please use v5 of the access tool (remove "_v0.5" tag): header file and implementation file.

ROOT histograms: 'traditional mhmax' benchmark scenario - Access tool version 0.4

Subsequently you may find the numbers for the 'traditional mhmax' scenario, which is defined by the parameter choice:
μ = 200GeV, M_Susy = 1000GeV, X_t = 2000GeV, M_2 = 200GeV, M_3 = 800GeV
It is known to provide a light Higgs with m_h>126GeV in large parts of the m_A-tanβ plane.

We present the ROOT histograms produced by the MSSM subgroup at an early stage in the m_A-tanβ-plane for 7 TeV and for 14 TeV. The scans have been made between m_A=90 GeV and m_A=1000 GeV and between tanβ=1 and 60 (5 and 70 for the 14 TeV scan). For very low tanβ, the scan is done between tanβ=0.5 and 0.9 in steps of 0.1. They are kept for documentation:

FeynHiggs 2.7.4 with default flags + HIGLU + ggH@NNLO + bbH@NNLO (5FS) + bbH (4FS) scans

  • ggH scale choices:
    • μ_R=μ_F=m_Phi.
    • Scale variation: 0.5*m_Phi < μ_R, μ_F < 2*m_Phi
  • out.mhmax_7.root: mhmax, 7 TeV
  • out.mhmax_7.root: mhmax, 14 TeV (no bbh 4FS and thus no Santander-matched XS and no PDF uncertainties! You obtain unreasonable results by the access tool!)

For 7 and 8 TeV please make use of the subsequent ROOT histograms:
HIGLU + ggH@NNLO + bbH@NNLO (5FS) + bbH (4FS) scans

The scenario is availabe for other (negative) values of μ as well, see attachments!

To read these files please use the old tool (v4): header file and implementation file.

Tools and Programs

If you aim to get cross sections and branching ratios for other scenarios than the ones on this webpage, you may use the following codes, which were also used to calculate the provided numbers:

  • Higgs mass calculation and branching ratios: FeynHiggs:
  • Gluon fusion cross section: ggh@nnlo
  • Gluon fusion cross section: HIGLU
  • Bottom-quark annihilation (5FS) cross section: bbh@nnlo
  • Gluon fusion (incl. SQCD and EW) and bottom-quark annihilation (5FS) cross section: SusHi

Discussion of MSSM scenarios with low tanβ and Heavy SUSY

Please check the dedicated twiki page here and the information provided in:

"Benchmark scenarios for low tanβ in the MSSM"
E. Bagnaschi, F. Frensch, S. Heinemeyer, G. Lee, S. Liebler, M. Mühlleitner, A. Mc Carn, J. Quevillon, N. Rompotis, P. Slavich, M. Spira, C. Wagner, R. Wolf
LHCHXSWG-2015-002

Meetings

Outdated discussions (kept for the sake of completeness)

Considerations on H->tautau (~2011)
Choice of input parameters (<2016)

Topic attachments
I Attachment History Action Size Date Who Comment
Texttxt choiceofinputparameters.txt r1 manage 2.1 K 2018-12-07 - 17:39 StefanLiebler  
Texttxt citationguide2013-16.txt r2 r1 manage 2.5 K 2018-12-10 - 09:53 StefanLiebler  
Texttxt considerationsonhiggstotautau.txt r1 manage 3.6 K 2015-08-03 - 11:03 StefanLiebler Discussion on H->tau tau at the time of YR1
Unknown file formatroot lightstau1_13TeV.root r4 r3 r2 r1 manage 7403.3 K 2016-05-27 - 14:15 StefanLiebler  
Unknown file formatroot lightstau1_14TeV.root r4 r3 r2 r1 manage 7402.7 K 2016-05-27 - 14:15 StefanLiebler  
Unknown file formatroot lightstopmod_13TeV.root r4 r3 r2 r1 manage 5080.2 K 2016-05-27 - 14:16 StefanLiebler  
Unknown file formatroot lightstopmod_14TeV.root r4 r3 r2 r1 manage 5080.8 K 2016-05-27 - 14:16 StefanLiebler  
Unknown file formatroot mh125_13.root r2 r1 manage 48626.8 K 2018-12-12 - 10:16 StefanLiebler  
Unknown file formatroot mh125_14.root r1 manage 47691.1 K 2019-01-08 - 13:28 StefanLiebler  
Unknown file formatroot mh125_8.root r2 r1 manage 48123.5 K 2018-12-12 - 10:16 StefanLiebler  
Unknown file formatroot mh125_align_13.root r3 r2 r1 manage 44303.3 K 2019-03-17 - 15:46 StefanLiebler  
Unknown file formatroot mh125_align_14.root r3 r2 r1 manage 43876.8 K 2019-03-17 - 15:57 StefanLiebler  
Unknown file formatroot mh125_align_8.root r3 r2 r1 manage 44139.3 K 2019-03-17 - 15:36 StefanLiebler  
Unknown file formatroot mh125_lc_13.root r2 r1 manage 49663.8 K 2018-12-12 - 10:17 StefanLiebler  
Unknown file formatroot mh125_lc_14.root r1 manage 48725.8 K 2019-01-08 - 13:28 StefanLiebler  
Unknown file formatroot mh125_lc_8.root r2 r1 manage 49151.0 K 2018-12-12 - 10:17 StefanLiebler  
Unknown file formatroot mh125_ls_13.root r1 manage 49442.4 K 2018-12-12 - 10:18 StefanLiebler  
Unknown file formatroot mh125_ls_14.root r1 manage 48500.5 K 2019-01-08 - 13:28 StefanLiebler  
Unknown file formatroot mh125_ls_8.root r1 manage 48934.6 K 2018-12-12 - 10:17 StefanLiebler  
Unknown file formatroot mhmodm_13TeV.root r4 r3 r2 r1 manage 7404.0 K 2016-05-27 - 14:17 StefanLiebler  
Unknown file formatroot mhmodm_14TeV.root r4 r3 r2 r1 manage 7403.0 K 2016-05-27 - 14:17 StefanLiebler  
Unknown file formatroot mhmodm_7TeV_tanbHigh.root r2 r1 manage 17111.9 K 2014-07-04 - 12:48 MonicaVazquezAcosta  
Unknown file formatroot mhmodm_7TeV_tanbLow.root r2 r1 manage 1527.6 K 2014-07-04 - 12:47 MonicaVazquezAcosta  
Unknown file formatroot mhmodm_8TeV_tanbHigh.root r2 r1 manage 17098.7 K 2014-07-04 - 12:47 MonicaVazquezAcosta  
Unknown file formatroot mhmodm_8TeV_tanbLow.root r2 r1 manage 1527.2 K 2014-07-04 - 12:47 MonicaVazquezAcosta  
Unknown file formatroot mhmodp_7TeV_tanbHigh.root r2 r1 manage 17131.6 K 2014-07-04 - 12:47 MonicaVazquezAcosta  
Unknown file formatroot mhmodp_7TeV_tanbLow.root r2 r1 manage 1526.2 K 2014-07-04 - 12:46 MonicaVazquezAcosta  
Unknown file formatroot mhmodp_8TeV_tanbHigh.root r2 r1 manage 17120.1 K 2014-07-04 - 12:46 MonicaVazquezAcosta  
Unknown file formatroot mhmodp_8TeV_tanbLow.root r2 r1 manage 1525.7 K 2014-07-04 - 12:46 MonicaVazquezAcosta  
Unknown file formatroot mhmodp_mu-1000_8TeV.root r1 manage 8378.3 K 2015-04-24 - 13:43 StefanLiebler mhmodp scenario for 8TeV with different values of mu
Unknown file formatroot mhmodp_mu-200_8TeV.root r1 manage 11430.2 K 2015-04-24 - 13:43 StefanLiebler mhmodp scenario for 8TeV with different values of mu
Unknown file formatroot mhmodp_mu-500_8TeV.root r1 manage 11433.9 K 2015-04-24 - 13:43 StefanLiebler mhmodp scenario for 8TeV with different values of mu
Unknown file formatroot mhmodp_mu1000_8TeV.root r1 manage 11342.3 K 2015-04-24 - 13:43 StefanLiebler mhmodp scenario for 8TeV with different values of mu
Unknown file formatroot mhmodp_mu200_13TeV.root r4 r3 r2 r1 manage 7414.6 K 2016-05-27 - 14:18 StefanLiebler  
Unknown file formatroot mhmodp_mu200_14TeV.root r4 r3 r2 r1 manage 7413.4 K 2016-05-27 - 14:18 StefanLiebler  
Unknown file formatroot mhmodp_mu500_8TeV.root r1 manage 11520.7 K 2015-04-24 - 13:43 StefanLiebler mhmodp scenario for 8TeV with different values of mu
Unknown file format5 mssm_xs_tools.C_v0.5 r1 manage 26.7 K 2015-07-31 - 23:52 FelixFrensch Access tool: version 0.5
Empty transparent 16x16 spacer0 mssm_xs_tools.C_v1.0 r2 r1 manage 6.5 K 2015-08-03 - 10:48 FelixFrensch Access tool: version 1.0
Empty transparent 16x16 spacer0 mssm_xs_tools.C_v2.0 r1 manage 6.5 K 2018-12-07 - 17:46 StefanLiebler  
Unknown file format1 mssm_xs_tools.C_v2.1 r1 manage 6.5 K 2019-07-24 - 16:26 StefanLiebler  
Unknown file format5 mssm_xs_tools.h_v0.5 r1 manage 11.3 K 2015-07-31 - 23:52 FelixFrensch Access tool: version 0.5
Empty transparent 16x16 spacer0 mssm_xs_tools.h_v1.0 r3 r2 r1 manage 29.8 K 2015-10-06 - 11:26 AllisonMcCarn Access tool: version 1.0
Empty transparent 16x16 spacer0 mssm_xs_tools.h_v2.0 r1 manage 27.5 K 2018-12-07 - 17:46 StefanLiebler  
Unknown file format1 mssm_xs_tools.h_v2.1 r1 manage 27.1 K 2019-07-24 - 16:26 StefanLiebler  
Empty transparent 16x16 spacer0 mssm_xs_tools.py_v1.0 r2 r1 manage 4.6 K 2015-08-03 - 10:48 FelixFrensch Access tool: version 1.0
Unknown file format1 mssm_xs_tools.py_v2.1 r1 manage 4.2 K 2019-07-24 - 16:26 StefanLiebler  
C source code filec mssm_xs_tools_v0.4.C r1 manage 39.0 K 2013-12-04 - 16:55 MonicaVazquezAcosta Access tool: version 0.4
Header fileh mssm_xs_tools_v0.4.h r1 manage 16.8 K 2013-12-04 - 16:55 MonicaVazquezAcosta Access tool: version 0.4
Unknown file formatroot newmhmax_mu200_13TeV.root r4 r3 r2 r1 manage 7412.8 K 2016-05-27 - 14:19 StefanLiebler  
Unknown file formatroot newmhmax_mu200_14TeV.root r4 r3 r2 r1 manage 7409.3 K 2016-05-27 - 14:20 StefanLiebler  
Texttxt oldaccesstoolexamples.txt r1 manage 1.2 K 2018-12-07 - 17:31 StefanLiebler  
Unknown file formatroot out.lightstau1-7TeV-tanbHigh-nnlo.root r1 manage 16943.4 K 2014-02-10 - 11:14 MonicaVazquezAcosta  
Unknown file formatroot out.lightstau1-7TeV-tanbLow-nnlo.root r1 manage 1507.3 K 2014-02-10 - 11:13 MonicaVazquezAcosta  
Unknown file formatroot out.lightstau1-8TeV-tanbHigh-nnlo.root r1 manage 16928.9 K 2014-02-10 - 11:13 MonicaVazquezAcosta  
Unknown file formatroot out.lightstau1-8TeV-tanbLow-nnlo.root r1 manage 1506.7 K 2014-02-10 - 11:13 MonicaVazquezAcosta  
Unknown file formatroot out.lightstopmod-7TeV-tanbHigh-nnlo.root r1 manage 16863.7 K 2014-03-12 - 15:21 MonicaVazquezAcosta  
Unknown file formatroot out.lightstopmod-7TeV-tanbLow-nnlo.root r1 manage 1189.6 K 2014-03-12 - 15:21 MonicaVazquezAcosta  
Unknown file formatroot out.lightstopmod-8TeV-tanbHigh-nnlo.root r1 manage 16861.1 K 2014-03-12 - 15:21 MonicaVazquezAcosta  
Unknown file formatroot out.lightstopmod-8TeV-tanbLow-nnlo.root r1 manage 1188.8 K 2014-03-12 - 15:20 MonicaVazquezAcosta  
Unknown file formatroot out.lowmH-7TeV-tanbHigh-nnlo.root r2 r1 manage 3502.1 K 2014-06-10 - 16:08 MonicaVazquezAcosta  
Unknown file formatroot out.lowmH-8TeV-tanbHigh-nnlo.root r2 r1 manage 3498.6 K 2014-06-10 - 16:08 MonicaVazquezAcosta  
Unknown file formatroot out.mhmax-mu200-7TeV-tanbHigh-nnlo.root r1 manage 29190.4 K 2014-02-10 - 11:12 MonicaVazquezAcosta  
Unknown file formatroot out.mhmax-mu200-7TeV-tanbLow-nnlo.root r1 manage 2222.2 K 2014-02-10 - 11:11 MonicaVazquezAcosta  
Unknown file formatroot out.mhmax-mu200-8TeV-tanbHigh-nnlo.root r1 manage 30870.5 K 2014-02-10 - 11:11 MonicaVazquezAcosta  
Unknown file formatroot out.mhmax-mu200-8TeV-tanbLow-nnlo.root r1 manage 2348.7 K 2014-02-10 - 11:11 MonicaVazquezAcosta  
Unknown file formatroot out.mhmax_14.root r1 manage 14773.6 K 2010-11-19 - 20:50 MarkusWarsinskyExCern mhmax scan results for 14 TeV,bbh 4f results and PDF uncertainties for ggF missing at the moment.
Unknown file formatroot out.mhmax_7.root r2 r1 manage 21510.6 K 2010-12-14 - 11:38 TrevorVickey mhmax scan results for 7 TeV
Unknown file formatroot out.mhmax_7_nnlo.root r1 manage 27491.7 K 2011-02-04 - 14:53 MonicaVazquezAcosta Scan which include the ggF+bbH combined PDF uncertainty
Unknown file formatroot out.mhmax_mu-200_7_nnlo.low_tanBeta.root r1 manage 2235.4 K 2012-02-01 - 15:20 MonicaVazquezAcosta mhmax mu=-200, 7 TeV, tanbeta between 0.5 & 0.9
Unknown file formatroot out.mhmax_mu-200_7_nnlo.root r1 manage 27687.2 K 2011-11-11 - 10:47 MonicaVazquezAcosta mhmax mu=-200, 7 TeV
Unknown file formatroot out.mhmax_mu-200_7_nnlo.tanBeta_gte1.root r1 manage 29388.4 K 2012-02-01 - 15:26 MonicaVazquezAcosta mhmax mu=-200, 7 TeV, lowest tanbeta=1
Unknown file formatroot out.mhmax_mu-400_7_nnlo.low_tanBeta.root r1 manage 2237.0 K 2012-02-01 - 15:21 MonicaVazquezAcosta mhmax mu=-400, 7 TeV, tanbeta between 0.5 & 0.9
Unknown file formatroot out.mhmax_mu-400_7_nnlo.root r1 manage 27760.7 K 2011-11-11 - 10:48 MonicaVazquezAcosta mhmax mu=-400, 7 TeV
Unknown file formatroot out.mhmax_mu-400_7_nnlo.tanBeta_gte1.root r1 manage 29461.3 K 2012-02-01 - 15:27 MonicaVazquezAcosta mhmax mu=-400, 7 TeV, lowest tanbeta=1
Unknown file formatroot out.mhmax_mu200_7_nnlo.low_tanBeta.root r1 manage 2235.4 K 2012-02-01 - 15:19 MonicaVazquezAcosta mhmax mu=200, 7 TeV, tanbeta between 0.5 & 0.9
Unknown file formatroot out.mhmax_mu200_7_nnlo.root r1 manage 27491.7 K 2011-11-11 - 10:45 MonicaVazquezAcosta mhmax mu=200, 7 TeV
Unknown file formatroot out.mhmax_mu200_7_nnlo.tanBeta_gte1.root r1 manage 29205.3 K 2012-02-01 - 15:24 MonicaVazquezAcosta mhmax mu=200, 7 TeV, lowest tanbeta=1
Unknown file formatroot out.mhmax_mu200_8_nnlo.low_tanBeta_FHv274.root r1 manage 2357.9 K 2012-10-15 - 10:42 TrevorVickey FeynHiggs 2.7.4: 8 TeV MSSM Neutral Higgs scans in the mhmax and nomixing scenarios for mA=[90 GeV,1000 GeV] and tanB=[0.5,0.9]; Note no BRs for WW or gamma-gamma
Unknown file formatroot out.mhmax_mu200_8_nnlo.tanBeta_gte1_FHv274.root r1 manage 30883.1 K 2012-07-27 - 14:20 MonicaVazquezAcosta FeynHiggs 2.7.4: 8 TeV MSSM Neutral Higgs scans in the mhmax and nomixing scenarios for mA=[90 GeV,1000 GeV] and tanB=[1,70]; Note no BRs for WW or gamma-gamma
Unknown file formatroot out.mhmax_mu400_7_nnlo.low_tanBeta.root r1 manage 2235.7 K 2012-02-01 - 15:18 MonicaVazquezAcosta mhmax mu=400, 7 TeV, tanbeta between 0.5 & 0.9
Unknown file formatroot out.mhmax_mu400_7_nnlo.root r1 manage 27640.0 K 2011-11-11 - 10:45 MonicaVazquezAcosta mhmax mu=400, 7 TeV
Unknown file formatroot out.mhmax_mu400_7_nnlo.tanBeta_gte1.root r1 manage 29341.8 K 2012-02-01 - 15:24 MonicaVazquezAcosta mhmax mu=400, 7 TeV, lowest tanbeta=1
Unknown file formatroot out.mhmax_mu600_7_nnlo.low_tanBeta.root r1 manage 2237.1 K 2012-02-01 - 15:19 MonicaVazquezAcosta mhmax mu=600, 7 TeV, tanbeta between 0.5 & 0.9
Unknown file formatroot out.mhmax_mu600_7_nnlo.root r1 manage 27461.1 K 2011-11-11 - 10:46 MonicaVazquezAcosta mhmax mu=600, 7 TeV
Unknown file formatroot out.mhmax_mu600_7_nnlo.tanBeta_gte1.root r1 manage 29163.1 K 2012-02-01 - 15:25 MonicaVazquezAcosta mhmax mu=600, 7 TeV, lowest tanbeta=1
Unknown file formatroot out.mhmax_mu800_7_nnlo.low_tanBeta.root r1 manage 2238.0 K 2012-02-01 - 15:20 MonicaVazquezAcosta mhmax mu=800, 7 TeV, tanbeta between 0.5 & 0.9
Unknown file formatroot out.mhmax_mu800_7_nnlo.root r1 manage 27335.9 K 2011-11-11 - 10:46 MonicaVazquezAcosta mhmax mu=800, 7 TeV
Unknown file formatroot out.mhmax_mu800_7_nnlo.tanBeta_gte1.root r1 manage 29038.1 K 2012-02-01 - 15:25 MonicaVazquezAcosta mhmax mu=800, 7 TeV, lowest tanbeta=1
Unknown file formatroot out.mhmodm-7TeV-tanbHigh-nnlo.root r1 manage 16947.0 K 2014-02-10 - 11:15 MonicaVazquezAcosta  
Unknown file formatroot out.mhmodm-7TeV-tanbLow-nnlo.root r1 manage 1509.1 K 2014-02-10 - 11:15 MonicaVazquezAcosta  
Unknown file formatroot out.mhmodm-8TeV-tanbHigh-nnlo.root r1 manage 16933.8 K 2014-02-10 - 11:15 MonicaVazquezAcosta  
Unknown file formatroot out.mhmodm-8TeV-tanbLow-nnlo.root r1 manage 1508.6 K 2014-02-10 - 11:15 MonicaVazquezAcosta  
Unknown file formatroot out.mhmodp-7TeV-tanbHigh-nnlo.root r1 manage 16967.0 K 2014-02-10 - 11:17 MonicaVazquezAcosta  
Unknown file formatroot out.mhmodp-7TeV-tanbLow-nnlo.root r1 manage 1507.8 K 2014-02-10 - 11:16 MonicaVazquezAcosta  
Unknown file formatroot out.mhmodp-8TeV-tanbHigh-nnlo.root r1 manage 16955.5 K 2014-02-10 - 11:16 MonicaVazquezAcosta  
Unknown file formatroot out.mhmodp-8TeV-tanbLow-nnlo.root r1 manage 1507.3 K 2014-02-10 - 11:16 MonicaVazquezAcosta  
Unknown file formatroot out.nomix_mu-200_7_nnlo.low_tanBeta.root r1 manage 2219.2 K 2012-02-01 - 15:23 MonicaVazquezAcosta nomix mu=-200, 7 TeV, tanbeta between 0.5 & 0.9
Unknown file formatroot out.nomix_mu-200_7_nnlo.root r1 manage 27556.2 K 2011-11-15 - 14:26 MonicaVazquezAcosta nomix mu=-200, 7 TeV
Unknown file formatroot out.nomix_mu-200_7_nnlo.tanBeta_gte1.root r1 manage 29102.2 K 2012-02-01 - 15:28 MonicaVazquezAcosta nomix mu=-200, 7 TeV, lowest tanbeta=1
Unknown file formatroot out.nomix_mu200_7_nnlo.low_tanBeta.root r1 manage 2217.8 K 2012-02-01 - 15:22 MonicaVazquezAcosta nomix mu=200, 7 TeV, tanbeta between 0.5 & 0.9
Unknown file formatroot out.nomix_mu200_7_nnlo.root r1 manage 27476.3 K 2011-11-11 - 10:49 MonicaVazquezAcosta nomix mu=200, 7 TeV
Unknown file formatroot out.nomix_mu200_7_nnlo.tanBeta_gte1.root r1 manage 29021.4 K 2012-02-01 - 15:27 MonicaVazquezAcosta nomix mu=200, 7 TeV, lowest tanbeta=1
PDFpdf santandermatching-hks.pdf r1 manage 177.4 K 2011-06-04 - 15:16 MarkusSchumacher2 Description of Santander matching procedure for inclusive pp-->H(bb) cross-section
Unknown file formatroot tauphobic_13TeV.root r4 r3 r2 r1 manage 5793.4 K 2016-05-27 - 14:21 StefanLiebler  
Unknown file formatroot tauphobic_14TeV.root r4 r3 r2 r1 manage 5793.4 K 2016-05-27 - 14:21 StefanLiebler  
Unknown file formatroot tauphobic_7TeV_ataueq0_mu2000.root r1 manage 13957.5 K 2014-12-24 - 15:56 StefanLiebler tauphobic scenario with A_tau=0 and mu=2000GeV
Unknown file formatroot tauphobic_7TeV_tanbHigh.root r1 manage 15526.6 K 2014-03-18 - 14:40 MonicaVazquezAcosta inconsistent tauphobic scenario with mu=2000GeV in XS and mu=500GeV in BRs, A_tau=A_top, used until 18.11.2014
Unknown file formatroot tauphobic_7TeV_tanbHigh_ataueqat_mu2000.root r1 manage 14209.7 K 2014-11-18 - 18:42 StefanLiebler tauphobic scenario with A_tau=A_top and mu=2000GeV
Unknown file formatroot tauphobic_7TeV_tanbLow.root r1 manage 1403.9 K 2014-03-18 - 14:39 MonicaVazquezAcosta inconsistent tauphobic scenario with mu=2000GeV in XS and mu=500GeV in BRs, A_tau=A_top, used until 18.11.2014
Unknown file formatroot tauphobic_7TeV_tanbLow_ataueqat_mu2000.root r1 manage 1382.2 K 2014-11-18 - 18:42 StefanLiebler tauphobic scenario with A_tau=A_top and mu=2000GeV
Unknown file formatroot tauphobic_8TeV_ataueq0_mu2000.root r1 manage 13948.5 K 2014-12-24 - 15:58 StefanLiebler tauphobic scenario with A_tau=0 and mu=2000GeV
Unknown file formatroot tauphobic_8TeV_tanbHigh.root r1 manage 15276.6 K 2014-03-18 - 14:39 MonicaVazquezAcosta inconsistent tauphobic scenario with mu=2000GeV in XS and mu=500GeV in BRs, A_tau=A_top, used until 18.11.2014
Unknown file formatroot tauphobic_8TeV_tanbHigh_ataueqat_mu2000.root r1 manage 14025.5 K 2014-11-18 - 18:42 StefanLiebler tauphobic scenario with A_tau=A_top and mu=2000GeV
Unknown file formatroot tauphobic_8TeV_tanbLow.root r1 manage 1403.3 K 2014-03-18 - 14:39 MonicaVazquezAcosta inconsistent tauphobic scenario with mu=2000GeV in XS and mu=500GeV in BRs, A_tau=A_top, used until 18.11.2014
Unknown file formatroot tauphobic_8TeV_tanbLow_ataueqat_mu2000.root r1 manage 1381.4 K 2014-11-18 - 18:42 StefanLiebler tauphobic scenario with A_tau=A_top and mu=2000GeV
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Topic revision: r130 - 2019-07-24 - StefanLiebler
 
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