Commit 3a7295f5 authored by Franziska Iltzsche's avatar Franziska Iltzsche
Browse files

add susycontrol/param_card.SM.TT.tn1.dat,...

add susycontrol/param_card.SM.TT.tn1.dat, susycontrol/param_card.SM.GG.qqn1.dat, update susycontrol/param_card.SM.GG.ttn1.dat


git-svn-id: svn+ssh://svn.cern.ch/reps/atlasoff/Generators/MC15JobOptions/trunk@811151 4525493e-7705-40b1-a816-d608a930855b
parent 92ef9866
2017-10-16 Franziska Iltzsche <franziska.speiser@cern.ch>
* remove csv entry for 410451
* update susycontrol/param_card.SM.GG.ttn1.dat
* add susycontrol/param_card.SM.TT.tn1.dat
* add susycontrol/param_card.SM.GG.qqn1.dat
* remove csv entry for 410451
* rename 410448 - 410463
* update common/MadGraph/MadGraphControl_tt012FxFx.py
* update common/MadGraph/MadGraphControl_HVT.py
......
##******************************************************************
## MadGraph/MadEvent *
##******************************************************************
## *
## param_card corresponding the SPS point 1a (by SoftSusy 2.0.5) *
## *
##******************************************************************
## Les Houches friendly file for the (MS)SM parameters of MadGraph *
## SM parameter set and decay widths produced by MSSMCalc *
##******************************************************************
##*Please note the following IMPORTANT issues: *
## *
##0. REFRAIN from editing this file by hand! Some of the parame- *
## ters are not independent. Always use a calculator. *
## *
##1. alpha_S(MZ) has been used in the calculation of the parameters*
## This value is KEPT by madgraph when no pdf are used lpp(i)=0, *
## but, for consistency, it will be reset by madgraph to the *
## value expected IF the pdfs for collisions with hadrons are *
## used. *
## *
##2. Values of the charm and bottom kinematic (pole) masses are *
## those used in the matrix elements and phase space UNLESS they *
## are set to ZERO from the start in the model (particles.dat) *
## This happens, for example, when using 5-flavor QCD where *
## charm and bottom are treated as partons in the initial state *
## and a zero mass might be hardwired in the model definition. *
## *
## The SUSY decays have calculated using SDECAY 1.1a *
## *
##******************************************************************
#
BLOCK DCINFO # Decay Program information
1 SDECAY # decay calculator
2 1.1a # version number
#
BLOCK SPINFO # Spectrum calculator information
1 SOFTSUSY # spectrum calculator
2 2.0.5 # version number
#
BLOCK MODSEL # Model selection
1 1 sugra
#
BLOCK SMINPUTS # Standard Model inputs
1 1.27934000E+02 # alpha_em^-1(M_Z)^MSbar
2 1.16637000E-05 # G_F [GeV^-2]
3 1.18000000E-01 # alpha_S(M_Z)^MSbar
4 9.11876000E+01 # M_Z pole mass
5 4.25000000E+00 # mb(mb)^MSbar
6 1.75000000E+02 # mt pole mass
7 1.77700000E+00 # mtau pole mass
#
BLOCK MINPAR # Input parameters - minimal models
1 1.00000000E+02 # m0
2 2.50000000E+02 # m12
3 1.00000000E+01 # tanb
4 1.00000000E+00 # sign(mu)
5 -1.00000000E+02 # A0
#
BLOCK MASS # Mass Spectrum
# PDG code mass particle
5 4.88991651E+00 # b-quark pole mass calculated from mb(mb)_Msbar
6 1.75000000E+02 # mt pole mass (not read by ME)
24 7.98290131E+01 # W+
25 1.10899057E+02 # h
35 3.99960116E+02 # H
36 3.99583917E+02 # A
37 4.07879012E+02 # H+
1000001 4.5E+05 # ~d_L
2000001 4.5E+05 # ~d_R
1000002 4.5E+05 # ~u_L
2000002 4.5E+05 # ~u_R
1000003 4.5E+05 # ~s_L
2000003 4.5E+05 # ~s_R
1000004 4.5E+05 # ~c_L
2000004 4.5E+05 # ~c_R
1000005 4.5E+05 # ~b_1
2000005 4.5E+05 # ~b_2
1000006 4.5E+05 # ~t_1
2000006 4.5E+05 # ~t_2
1000011 4.5E+05 # ~e_L
2000011 4.5E+05 # ~e_R
1000012 4.5E+05 # ~nu_eL
1000013 4.5E+05 # ~mu_L
2000013 4.5E+05 # ~mu_R
1000014 4.5E+05 # ~nu_muL
1000015 4.5E+05 # ~tau_1
2000015 4.5E+05 # ~tau_2
1000016 4.5E+05 # ~nu_tauL
1000021 MGLUINO # ~g
1000022 MNEUTRALINO # ~chi_10
1000023 4.5E+05 # ~chi_20
1000025 4.5E+05 # ~chi_30
1000035 4.5E+05 # ~chi_40
1000024 4.5E+05 # ~chi_1+
1000037 4.5E+05 # ~chi_2+
#
BLOCK NMIX # Neutralino Mixing Matrix
1 1 9.86364430E-01 # N_11
1 2 -5.31103553E-02 # N_12
1 3 1.46433995E-01 # N_13
1 4 -5.31186117E-02 # N_14
2 1 9.93505358E-02 # N_21
2 2 9.44949299E-01 # N_22
2 3 -2.69846720E-01 # N_23
2 4 1.56150698E-01 # N_24
3 1 -6.03388002E-02 # N_31
3 2 8.77004854E-02 # N_32
3 3 6.95877493E-01 # N_33
3 4 7.10226984E-01 # N_34
4 1 -1.16507132E-01 # N_41
4 2 3.10739017E-01 # N_42
4 3 6.49225960E-01 # N_43
4 4 -6.84377823E-01 # N_44
#
BLOCK UMIX # Chargino Mixing Matrix U
1 1 9.16834859E-01 # U_11
1 2 -3.99266629E-01 # U_12
2 1 3.99266629E-01 # U_21
2 2 9.16834859E-01 # U_22
#
BLOCK VMIX # Chargino Mixing Matrix V
1 1 9.72557835E-01 # V_11
1 2 -2.32661249E-01 # V_12
2 1 2.32661249E-01 # V_21
2 2 9.72557835E-01 # V_22
#
BLOCK STOPMIX # Stop Mixing Matrix
1 1 5.53644960E-01 # O_{11}
1 2 8.32752820E-01 # O_{12}
2 1 8.32752820E-01 # O_{21}
2 2 -5.53644960E-01 # O_{22}
#
BLOCK SBOTMIX # Sbottom Mixing Matrix
1 1 9.38737896E-01 # O_{11}
1 2 3.44631925E-01 # O_{12}
2 1 -3.44631925E-01 # O_{21}
2 2 9.38737896E-01 # O_{22}
#
BLOCK STAUMIX # Stau Mixing Matrix
1 1 2.82487190E-01 # O_{11}
1 2 9.59271071E-01 # O_{12}
2 1 9.59271071E-01 # O_{21}
2 2 -2.82487190E-01 # O_{22}
#
BLOCK ALPHA # Higgs mixing
-1.13825210E-01 # Mixing angle in the neutral Higgs boson sector
#
BLOCK HMIX Q= 4.67034192E+02 # DRbar Higgs Parameters
1 3.57680977E+02 # mu(Q)MSSM DRbar
2 9.74862403E+00 # tan beta(Q)MSSM DRba
3 2.44894549E+02 # higgs vev(Q)MSSM DRb
4 1.66439065E+05 # mA^2(Q)MSSM DRbar
#
BLOCK GAUGE Q= 4.67034192E+02 # The gauge couplings
3 1.10178679E+00 # g3(Q) MSbar
#
BLOCK AU Q= 4.67034192E+02 # The trilinear couplings
1 1 0.00000000E+00 # A_u(Q) DRbar
2 2 0.00000000E+00 # A_c(Q) DRbar
3 3 -4.98129778E+02 # A_t(Q) DRbar
#
BLOCK AD Q= 4.67034192E+02 # The trilinear couplings
1 1 0.00000000E+00 # A_d(Q) DRbar
2 2 0.00000000E+00 # A_s(Q) DRbar
3 3 -7.97274397E+02 # A_b(Q) DRbar
#
BLOCK AE Q= 4.67034192E+02 # The trilinear couplings
1 1 0.00000000E+00 # A_e(Q) DRbar
2 2 0.00000000E+00 # A_mu(Q) DRbar
3 3 -2.51776873E+02 # A_tau(Q) DRbar
#
BLOCK YU Q= 4.67034192E+02 # The Yukawa couplings
3 3 8.92844550E-01 # y_t(Q) DRbar
#
BLOCK YD Q= 4.67034192E+02 # The Yukawa couplings
3 3 1.38840206E-01 # y_b(Q) DRbar
#
BLOCK YE Q= 4.67034192E+02 # The Yukawa couplings
3 3 1.00890810E-01 # y_tau(Q) DRbar
#
BLOCK MSOFT Q= 4.67034192E+02 # The soft SUSY breaking masses at the scale Q
1 1.01396534E+02 # M_1(Q)
2 1.91504241E+02 # M_2(Q)
3 5.88263031E+02 # M_3(Q)
21 3.23374943E+04 # mH1^2(Q)
22 -1.28800134E+05 # mH2^2(Q)
31 1.95334764E+02 # meL(Q)
32 1.95334764E+02 # mmuL(Q)
33 1.94495956E+02 # mtauL(Q)
34 1.36494061E+02 # meR(Q)
35 1.36494061E+02 # mmuR(Q)
36 1.34043428E+02 # mtauR(Q)
41 5.47573466E+02 # mqL1(Q)
42 5.47573466E+02 # mqL2(Q)
43 4.98763839E+02 # mqL3(Q)
44 5.29511195E+02 # muR(Q)
45 5.29511195E+02 # mcR(Q)
46 4.23245877E+02 # mtR(Q)
47 5.23148807E+02 # mdR(Q)
48 5.23148807E+02 # msR(Q)
49 5.19867261E+02 # mbR(Q)
#
#
#
# =================
# |The decay table|
# =================
#
# - The multi-body decays for the inos, stops and sbottoms are included.
#
# - The SUSY decays of the top quark are included.
#
DECAY 1 0.000000e+00 # d : 0.0
DECAY 2 0.000000e+00 # u : 0.0
DECAY 3 0.000000e+00 # s : 0.0
DECAY 4 0.000000e+00 # c : 0.0
DECAY 5 0.000000e+00 # b : 0.0
DECAY 11 0.000000e+00 # e- : 0.0
DECAY 12 0.000000e+00 # ve : 0.0
DECAY 13 0.000000e+00 # mu- : 0.0
DECAY 14 0.000000e+00 # vm : 0.0
DECAY 15 0.000000e+00 # ta- : 0.0
DECAY 16 0.000000e+00 # vt : 0.0
DECAY 21 0.000000e+00 # g : 0.0
#
# PDG Width
DECAY 23 2.41143316E+00 # Z width (SM calculation)
DECAY 24 2.00282196E+00 # W width (SM calculation)
#
# PDG Width
DECAY 6 1.56194983E+00 # top decays
# BR NDA ID1 ID2
1.00000000E+00 2 5 24 # BR(t -> b W+)
0.00000000E+00 2 5 37 # BR(t -> b H+)
0.00000000E+00 2 1000006 1000022 # BR(t -> ~t_1 ~chi_10)
0.00000000E+00 2 1000006 1000023 # BR(t -> ~t_1 ~chi_20)
0.00000000E+00 2 1000006 1000025 # BR(t -> ~t_1 ~chi_30)
0.00000000E+00 2 1000006 1000035 # BR(t -> ~t_1 ~chi_40)
0.00000000E+00 2 2000006 1000022 # BR(t -> ~t_2 ~chi_10)
0.00000000E+00 2 2000006 1000023 # BR(t -> ~t_2 ~chi_20)
0.00000000E+00 2 2000006 1000025 # BR(t -> ~t_2 ~chi_30)
0.00000000E+00 2 2000006 1000035 # BR(t -> ~t_2 ~chi_40)
#
# PDG Width
DECAY 1000021 1.0000000000E+00 # gluino decays
# BR NDA ID1 ID2
0.25 3 1000022 1 -1
0.25 3 1000022 2 -2
0.25 3 1000022 3 -3
0.25 3 1000022 4 -4
#
DECAY 1000022 1.0000000000E+00 # neutralino1 decays
# BR NDA ID1 ID2 ID3 ID4
0.08333333 3 2 1 3
0.08333333 3 2 1 5
0.08333333 3 2 3 5
0.08333333 3 4 1 3
0.08333333 3 4 1 5
0.08333333 3 4 3 5
0.08333333 3 -2 -1 -3
0.08333333 3 -2 -1 -5
0.08333333 3 -2 -3 -5
0.08333333 3 -4 -1 -3
0.08333333 3 -4 -1 -5
0.08333333 3 -4 -3 -5
#
......@@ -218,6 +218,18 @@ BLOCK MSOFT Q= 6.61219971E+02 # The soft SUSY breaking masses at the scale Q
# - The SUSY decays of the top quark are included.
#
#
DECAY 1 0.000000e+00 # d : 0.0
DECAY 2 0.000000e+00 # u : 0.0
DECAY 3 0.000000e+00 # s : 0.0
DECAY 4 0.000000e+00 # c : 0.0
DECAY 5 0.000000e+00 # b : 0.0
DECAY 11 0.000000e+00 # e- : 0.0
DECAY 12 0.000000e+00 # ve : 0.0
DECAY 13 0.000000e+00 # mu- : 0.0
DECAY 14 0.000000e+00 # vm : 0.0
DECAY 15 0.000000e+00 # ta- : 0.0
DECAY 16 0.000000e+00 # vt : 0.0
DECAY 21 0.000000e+00 # g : 0.0
# PDG Width
DECAY 23 2.49520000E+00 # Z width (SM calculation)
DECAY 24 2.08500000E+00 # W width (SM calculation)
......
This diff is collapsed.
Markdown is supported
0% or .
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment