Commit df9f9b66 authored by Franziska Iltzsche's avatar Franziska Iltzsche
Browse files

add topcontrol/MadGraph_param_card_ttFCNC_NLO_FixedFCNCBR.dat


git-svn-id: svn+ssh://svn.cern.ch/reps/atlasoff/Generators/MC15JobOptions/trunk@813579 4525493e-7705-40b1-a816-d608a930855b
parent fb376fed
2018-03-29 franziska iltzsche <franziska.speiser@cern.ch>
* add topcontrol/MadGraph_param_card_ttFCNC_NLO_FixedFCNCBR.dat
* update common/Powheg/PowhegControl_ttFCNC_NLO.py
2018-03-29 Ewelina Maria Lobodzinska <ewelina.maria.lobodzinska@cern.ch>
* modify common/herwig7/Herwig7_LHE.py to ake it running also for 20.7.9.9.6,MCProd
* (ATLMCPROD-4974)
......
......@@ -186,7 +186,7 @@ coup = {
import shutil,os,subprocess
paramFileName = 'MadGraph_param_card_ttFCNC_NLO.dat'
paramFileName = 'MadGraph_param_card_ttFCNC_NLO_FixedFCNCBR.dat'
paramFileNameN = 'param_card.dat'
paramFile = subprocess.Popen(['get_files','-data',paramFileName]).communicate()
if not os.access(paramFileName, os.R_OK):
......
######################################################################
## PARAM_CARD AUTOMATICALY GENERATED BY MG5 FOLLOWING UFO MODEL ####
######################################################################
## ##
## Width set on Auto will be computed following the information ##
## present in the decay.py files of the model. ##
## See arXiv:1402.1178 for more details. ##
## ##
######################################################################
###################################
## INFORMATION FOR DIM6
###################################
Block dim6
1 1.000000e+03 # Lambda
2 0.000000e+00 # RCtphi
3 0.000000e+00 # ICtphi
4 0.000000e+00 # RCtG
5 0.000000e+00 # ICtG
6 0.000000e+00 # RCtW
7 0.000000e+00 # ICtW
8 0.000000e+00 # RCtB
9 0.000000e+00 # ICtB
10 0.000000e+00 # RCuphi
11 0.000000e+00 # ICuphi
12 0.000000e+00 # RCuG
13 0.000000e+00 # ICuG
14 0.000000e+00 # RCuW
15 0.000000e+00 # ICuW
16 0.000000e+00 # RCuB
17 0.000000e+00 # ICuB
18 0.000000e+00 # RC1utR
19 0.000000e+00 # IC1utR
20 0.000000e+00 # RC1utL
21 0.000000e+00 # IC1utL
22 0.000000e+00 # RC3utL
23 0.000000e+00 # IC3utL
24 0.000000e+00 # RCtcphi
25 0.000000e+00 # ICtcphi
26 0.000000e+00 # RCtcG
27 0.000000e+00 # ICtcG
28 0.000000e+00 # RCtcW
29 0.000000e+00 # ICtcW
30 0.000000e+00 # RCtcB
31 0.000000e+00 # ICtcB
32 0.000000e+00 # RCctphi
33 0.000000e+00 # ICctphi
34 0.000000e+00 # RCctG
35 0.000000e+00 # ICctG
36 0.000000e+00 # RCctW
37 0.000000e+00 # ICctW
38 0.000000e+00 # RCctB
39 0.000000e+00 # ICctB
40 0.000000e+00 # RC1ctR
41 0.000000e+00 # IC1ctR
42 0.000000e+00 # RC1ctL
43 0.000000e+00 # IC1ctL
44 0.000000e+00 # RC3ctL
45 0.000000e+00 # IC3ctL
###################################
## INFORMATION FOR LOOP
###################################
Block loop
1 9.118800e+01 # MU_R
###################################
## INFORMATION FOR MASS
###################################
Block mass
6 1.725000e+02 # MT
23 9.118760e+01 # MZ
25 1.250000e+02 # MH
## Dependent parameters, given by model restrictions.
## Those values should be edited following the
## analytical expression. MG5 ignores those values
## but they are important for interfacing the output of MG5
## to external program such as Pythia.
1 0.000000 # d : 0.0
2 0.000000 # u : 0.0
3 0.000000 # s : 0.0
4 0.000000 # c : 0.0
5 0.000000 # b : 0.0
11 0.000000 # e- : 0.0
12 0.000000 # ve : 0.0
13 0.000000 # mu- : 0.0
14 0.000000 # vm : 0.0
15 0.000000 # ta- : 0.0
16 0.000000 # vt : 0.0
21 0.000000 # g : 0.0
22 0.000000 # a : 0.0
24 80.39900 # w+ : cmath.sqrt(MZ__exp__2/2. + cmath.sqrt(MZ__exp__4/4. - (aEW*cmath.pi*MZ__exp__2)/(Gf*sqrt__2)))
82 0.000000 # ghg : 0.0
9000001 0.000000 # gha : 0.0
9000002 91.187600 # ghz : MZ
9000003 80.39900 # ghwp : MW
9000004 80.39900 # ghwm : MW
###################################
## INFORMATION FOR SMINPUTS
###################################
Block sminputs
1 1.323489e+02 # aEWM1
2 1.166370e-05 # Gf
3 1.184000e-01 # aS
###################################
## INFORMATION FOR YUKAWA
###################################
Block yukawa
1 5.040000e-03 # ymdo
2 2.550000e-03 # ymup
3 1.010000e-01 # yms
4 1.270000e+00 # ymc
5 4.700000e+00 # ymb
6 1.725000e+02 # ymt
11 5.110000e-04 # yme
13 1.056600e-01 # ymm
15 1.777000e+00 # ymtau
###################################
## INFORMATION FOR DECAY
###################################
#DECAY 6 1.508336e+00 # WT
DECAY 23 2.495200e+00 # WZ
#DECAY 24 2.085000e+00 # WW
DECAY 25 4.070000e-03 # WH
## Dependent parameters, given by model restrictions.
## Those values should be edited following the
## analytical expression. MG5 ignores those values
## but they are important for interfacing the output of MG5
## to external program such as Pythia.
DECAY 1 0.000000 # d : 0.0
DECAY 2 0.000000 # u : 0.0
DECAY 3 0.000000 # s : 0.0
DECAY 4 0.000000 # c : 0.0
DECAY 5 0.000000 # b : 0.0
DECAY 11 0.000000 # e- : 0.0
DECAY 12 0.000000 # ve : 0.0
DECAY 13 0.000000 # mu- : 0.0
DECAY 14 0.000000 # vm : 0.0
DECAY 15 0.000000 # ta- : 0.0
DECAY 16 0.000000 # vt : 0.0
DECAY 21 0.000000 # g : 0.0
DECAY 22 0.000000 # a : 0.0
DECAY 82 0.000000 # ghg : 0.0
DECAY 9000001 0.000000 # gha : 0.0
DECAY 9000002 2.495200 # ghz : WZ
DECAY 9000003 2.085000 # ghwp : WW
DECAY 9000004 2.085000 # ghwm : WW
## DECAY ID WIDTH
## NDA ID1 ID2 ...
DECAY -24 2.085000e+00
3.377e-01 2 1 -2
3.377e-01 2 3 -4
1.082e-01 2 11 -12
1.082e-01 2 13 -14
1.082e-01 2 15 -16
DECAY 24 2.085000e+00
3.377e-01 2 -1 2
3.377e-01 2 -3 4
1.082e-01 2 -11 12
1.082e-01 2 -13 14
1.082e-01 2 -15 16
#With this, I can have small couplings to be consistent
# with the SM width and limit on BR (~ 0.1%), and yet generate the exotic width
#
DECAY -6 1.33
9.96e-01 2 -5 -24
0.10e-02 2 -4 25
0.10e-02 2 -2 25
0.05e-02 2 -4 23
0.05e-02 2 -2 23
0.05e-02 2 -4 22
0.05e-02 2 -2 22
DECAY 6 1.33
9.96e-01 2 5 24
0.10e-02 2 4 25
0.10e-02 2 2 25
0.05e-02 2 4 23
0.05e-02 2 2 23
0.05e-02 2 4 22
0.05e-02 2 2 22
#===========================================================
# QUANTUM NUMBERS OF NEW STATE(S) (NON SM PDG CODE)
#===========================================================
Block QNUMBERS 9000001 # gha
1 0 # 3 times electric charge
2 1 # number of spin states (2S+1)
3 1 # colour rep (1: singlet, 3: triplet, 8: octet)
4 1 # Particle/Antiparticle distinction (0=own anti)
Block QNUMBERS 9000002 # ghz
1 0 # 3 times electric charge
2 1 # number of spin states (2S+1)
3 1 # colour rep (1: singlet, 3: triplet, 8: octet)
4 1 # Particle/Antiparticle distinction (0=own anti)
Block QNUMBERS 9000003 # ghwp
1 3 # 3 times electric charge
2 1 # number of spin states (2S+1)
3 1 # colour rep (1: singlet, 3: triplet, 8: octet)
4 1 # Particle/Antiparticle distinction (0=own anti)
Block QNUMBERS 9000004 # ghwm
1 -3 # 3 times electric charge
2 1 # number of spin states (2S+1)
3 1 # colour rep (1: singlet, 3: triplet, 8: octet)
4 1 # Particle/Antiparticle distinction (0=own anti)
Block QNUMBERS 82 # ghg
1 0 # 3 times electric charge
2 1 # number of spin states (2S+1)
3 8 # colour rep (1: singlet, 3: triplet, 8: octet)
4 1 # Particle/Antiparticle distinction (0=own anti)
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