MG param_card generation with warning using FeynHiggs output
Hi MadGraph experts,
I was trying to generate MadGraph param_card using the tools provided in the MadGraph website. Howeer the param_card generated contain the following warnings :
WARHNING: The Block GAUGE has not been given.
# It is needed for a consistent calculation however
#
# WARNING: The DRbar value for the VEV at the scale Q has not been given.
# Instead v=246 GeV has been chosen.
# However, the QCD corrections to the decays cannot be calculated consistently
# in this case.
It seems FeynHiggs output does not contain the gauge couplings and the Higgs VEV. Can anyone suggest any way around those warnings. Do the QCD corrections have considerable effect on the decay widths?
I've also checked the same by including the following values for the aforementioned blocks by hand (MUE and TB is provided by FeynHiggs):
BLOCK HMIX Q= -0.99900000E+03
1 2.95460000E+02 # MUE
2 1.00000000E+01 # TB
3 2.44929689E+02 # vev(Q)
BLOCK GAUGE Q= -0.99900000E+03
1 3.60950397E-01 # gprime(Q) DRbar
2 6.46424289E-01 # g(Q) DRbar
3 1.09623058E+00 # g_3(Q) DRbar
In this case the problem goes away. Do you think this way of solving the problem is correct or do I need to use the corresponding values at some fuxed scale.
Thanks in advance,
Tathagata
Question information
- Language:
- English Edit question
- Status:
- Answered
- Assignee:
- Benjamin Fuks Edit question
- Last query:
- Last reply:
Revision history for this message
|
#1 |
Hi,
Indeed the information about Q= is required in format.
For the width, the tools indicate that they are calculate at LO via SDECAY, so I don’t understand why this warning is raised.
Cheers,
Olivier
On Mar 24, 2014, at 7:31 PM, Tathagata Ghosh <email address hidden> wrote:
> New question #245989 on MadGraph5_aMC@NLO:
> https:/
>
> Hi MadGraph experts,
>
> I was trying to generate MadGraph param_card using the tools provided in the MadGraph website. Howeer the param_card generated contain the following warnings :
>
> WARHNING: The Block GAUGE has not been given.
> # It is needed for a consistent calculation however
> #
> # WARNING: The DRbar value for the VEV at the scale Q has not been given.
> # Instead v=246 GeV has been chosen.
> # However, the QCD corrections to the decays cannot be calculated consistently
> # in this case.
>
> It seems FeynHiggs output does not contain the gauge couplings and the Higgs VEV. Can anyone suggest any way around those warnings. Do the QCD corrections have considerable effect on the decay widths?
>
> I've also checked the same by including the following values for the aforementioned blocks by hand (MUE and TB is provided by FeynHiggs):
>
> BLOCK HMIX Q= -0.99900000E+03
> 1 2.95460000E+02 # MUE
> 2 1.00000000E+01 # TB
> 3 2.44929689E+02 # vev(Q)
> BLOCK GAUGE Q= -0.99900000E+03
> 1 3.60950397E-01 # gprime(Q) DRbar
> 2 6.46424289E-01 # g(Q) DRbar
> 3 1.09623058E+00 # g_3(Q) DRbar
>
> In this case the problem goes away. Do you think this way of solving the problem is correct or do I need to use the corresponding values at some fuxed scale.
>
> I've attached the FeynHiggs SLHA output and the corresponding param_card .
>
> Thanks in advance,
> Tathagata
>
>
> --
> You received this question notification because you are an answer
> contact for MadGraph5_aMC@NLO.
Revision history for this message
|
#2 |
I've attached the FeynHiggs output and the corresponding param_card generated for MadGraph with warnings.
----- Original Message -----
From: "Tathagata Ghosh" <email address hidden>
To: <email address hidden>
Sent: Monday, March 24, 2014 2:31:23 PM
Subject: Re: [Question #245989]: MG param_card generation with warning using FeynHiggs output
Your question #245989 on MadGraph5_aMC@NLO changed:
https:/
Description changed to:
Hi MadGraph experts,
I was trying to generate MadGraph param_card using the tools provided in
the MadGraph website. Howeer the param_card generated contain the
following warnings :
WARHNING: The Block GAUGE has not been given.
# It is needed for a consistent calculation however
#
# WARNING: The DRbar value for the VEV at the scale Q has not been given.
# Instead v=246 GeV has been chosen.
# However, the QCD corrections to the decays cannot be calculated consistently
# in this case.
It seems FeynHiggs output does not contain the gauge couplings and the
Higgs VEV. Can anyone suggest any way around those warnings. Do the QCD
corrections have considerable effect on the decay widths?
I've also checked the same by including the following values for the
aforementioned blocks by hand (MUE and TB is provided by FeynHiggs):
BLOCK HMIX Q= -0.99900000E+03
1 2.95460000E+02 # MUE
2 1.00000000E+01 # TB
3 2.44929689E+02 # vev(Q)
BLOCK GAUGE Q= -0.99900000E+03
1 3.60950397E-01 # gprime(Q) DRbar
2 6.46424289E-01 # g(Q) DRbar
3 1.09623058E+00 # g_3(Q) DRbar
In this case the problem goes away. Do you think this way of solving
the problem is correct or do I need to use the corresponding values at
some fuxed scale.
Thanks in advance,
Tathagata
--
You received this question notification because you asked the question.
Revision history for this message
|
#3 |
Thanks Olivier!
----- Original Message -----
From: "Olivier Mattelaer" <email address hidden>
To: <email address hidden>
Sent: Monday, March 24, 2014 2:46:28 PM
Subject: Re: [Question #245989]: MG param_card generation with warning using FeynHiggs output
Your question #245989 on MadGraph5_aMC@NLO changed:
https:/
Status: Open => Answered
Olivier Mattelaer proposed the following answer:
Hi,
Indeed the information about Q= is required in format.
For the width, the tools indicate that they are calculate at LO via
SDECAY, so I don’t understand why this warning is raised.
Cheers,
Olivier
On Mar 24, 2014, at 7:31 PM, Tathagata Ghosh
<email address hidden> wrote:
> New question #245989 on MadGraph5_aMC@NLO:
> https:/
>
> Hi MadGraph experts,
>
> I was trying to generate MadGraph param_card using the tools provided in the MadGraph website. Howeer the param_card generated contain the following warnings :
>
> WARHNING: The Block GAUGE has not been given.
> # It is needed for a consistent calculation however
> #
> # WARNING: The DRbar value for the VEV at the scale Q has not been given.
> # Instead v=246 GeV has been chosen.
> # However, the QCD corrections to the decays cannot be calculated consistently
> # in this case.
>
> It seems FeynHiggs output does not contain the gauge couplings and the Higgs VEV. Can anyone suggest any way around those warnings. Do the QCD corrections have considerable effect on the decay widths?
>
> I've also checked the same by including the following values for the aforementioned blocks by hand (MUE and TB is provided by FeynHiggs):
>
> BLOCK HMIX Q= -0.99900000E+03
> 1 2.95460000E+02 # MUE
> 2 1.00000000E+01 # TB
> 3 2.44929689E+02 # vev(Q)
> BLOCK GAUGE Q= -0.99900000E+03
> 1 3.60950397E-01 # gprime(Q) DRbar
> 2 6.46424289E-01 # g(Q) DRbar
> 3 1.09623058E+00 # g_3(Q) DRbar
>
> In this case the problem goes away. Do you think this way of solving the problem is correct or do I need to use the corresponding values at some fuxed scale.
>
> I've attached the FeynHiggs SLHA output and the corresponding param_card .
>
> Thanks in advance,
> Tathagata
>
>
> --
> You received this question notification because you are an answer
> contact for MadGraph5_aMC@NLO.
--
If this answers your question, please go to the following page to let us
know that it is solved:
https:/
If you still need help, you can reply to this email or go to the
following page to enter your feedback:
https:/
You received this question notification because you asked the question.
Revision history for this message
|
#4 |
just changing the status.
Revision history for this message
|
#5 |
Hi Olivier,
I noticed today that there is another error in the generated param_card by sdecay, for which I could not find the source of error.
If you look at the attached slha input file then you can see that the smuon masses are as follows:
1000013 1.05858712E+02 # MSf(1,2,2)
2000013 1.41282437E+02 # MSf(2,2,2)
However in the generated param_card the corresponding masses are given by,
1000013 5.00018156E+03 # ~mu_L
2000013 5.00022596E+03 # ~mu_R
I don't have any clue why the smuon masses are changed in the param_card. I'll be highly obliged if you can help me understand this problem.
Moreover is there any other way to translate the FeynHiggs slha output into MG param_card and generate all the necessary decay-widths?
I've attached both the slha input and MG param_card with this email.
Thanks,
Tathagata
----- Original Message -----
From: "Olivier Mattelaer" <email address hidden>
To: <email address hidden>
Sent: Friday, March 28, 2014 9:16:31 AM
Subject: Re: [Question #245989]: MG param_card generation with warning using FeynHiggs output
Your question #245989 on MadGraph5_aMC@NLO changed:
https:/
Status: Open => Answered
Olivier Mattelaer changed the question status:
just changing the status.
--
You received this question notification because you asked the question.
Revision history for this message
|
#6 |
Hi,
They are no attachment ;-)
Launchpad fail to support attachment send by email (so bad ….)
Cheers,
Olivier
On Mar 31, 2014, at 2:07 AM, Tathagata Ghosh <email address hidden> wrote:
> Question #245989 on MadGraph5_aMC@NLO changed:
> https:/
>
> Status: Answered => Open
>
> Tathagata Ghosh is still having a problem:
> Hi Olivier,
>
> I noticed today that there is another error in the generated param_card
> by sdecay, for which I could not find the source of error.
>
> If you look at the attached slha input file then you can see that the
> smuon masses are as follows:
>
> 1000013 1.05858712E+02 # MSf(1,2,2)
> 2000013 1.41282437E+02 # MSf(2,2,2)
>
> However in the generated param_card the corresponding masses are given
> by,
>
> 1000013 5.00018156E+03 # ~mu_L
> 2000013 5.00022596E+03 # ~mu_R
>
> I don't have any clue why the smuon masses are changed in the
> param_card. I'll be highly obliged if you can help me understand this
> problem.
>
> Moreover is there any other way to translate the FeynHiggs slha output
> into MG param_card and generate all the necessary decay-widths?
>
> I've attached both the slha input and MG param_card with this email.
>
> Thanks,
> Tathagata
>
> ----- Original Message -----
> From: "Olivier Mattelaer" <email address hidden>
> To: <email address hidden>
> Sent: Friday, March 28, 2014 9:16:31 AM
> Subject: Re: [Question #245989]: MG param_card generation with warning using FeynHiggs output
>
> Your question #245989 on MadGraph5_aMC@NLO changed:
> https:/
>
> Status: Open => Answered
>
> Olivier Mattelaer changed the question status:
> just changing the status.
>
> --
> You received this question notification because you asked the question.
>
> You received this question notification because you are an answer
> contact for MadGraph5_aMC@NLO.
Revision history for this message
|
#7 |
I'm sorry about that. It was a stupid mistake.
Revision history for this message
|
#8 |
Sorry for being so stupid not being able to attach the files. The copied SLHA output is given below:-
BLOCK SPINFO
1 FeynHiggs
2 2.10.0
2 built on Dec 22, 2013
BLOCK MODSEL
1 0 # Model
2 1 # GridPts
3 0 # Content
4 0 # RPV
5 0 # CPV
6 0 # FV
BLOCK SMINPUTS
1 1.28952819E+02 # invAlfaMZ
2 1.16639000E-05 # GF
3 1.18000000E-01 # AlfasMZ
4 9.11875000E+01 # MZ
5 4.20000000E+00 # Mb
6 1.73300003E+02 # Mt
7 1.77703000E+00 # Mtau
11 5.10998902E-04 # Me
13 1.05658357E-01 # Mmu
21 6.00000000E-03 # Md
22 3.00000000E-03 # Mu
23 9.50000000E-02 # Ms
24 1.28600000E+00 # Mc
BLOCK MINPAR
3 1.00000000E+01 # TB
BLOCK EXTPAR
0 0.00000000E+00 # Q
1 7.96300000E+02 # M1
2 1.81002000E+02 # M2
3 5.00000000E+03 # M3
11 0.00000000E+00 # At
12 0.00000000E+00 # Ab
13 0.00000000E+00 # Atau
23 2.89705000E+02 # MUE
25 1.00000000E+01 # TB
26 5.00000000E+03 # MA0
27 5.00064625E+03 # MHp
31 5.00000000E+03 # MSL(1)
32 9.46421000E+01 # MSL(2)
33 5.00000000E+03 # MSL(3)
34 5.00000000E+03 # MSE(1)
35 1.34664000E+02 # MSE(2)
36 5.00000000E+03 # MSE(3)
41 5.00000000E+03 # MSQ(1)
42 5.00000000E+03 # MSQ(2)
43 5.00000000E+03 # MSQ(3)
44 5.00000000E+03 # MSU(1)
45 5.00000000E+03 # MSU(2)
46 5.00000000E+03 # MSU(3)
47 5.00000000E+03 # MSD(1)
48 5.00000000E+03 # MSD(2)
49 5.00000000E+03 # MSD(3)
BLOCK MASS
1000012 4.99959246E+03 # MSf(1,1,1)
1000011 5.00018156E+03 # MSf(1,2,1)
2000011 5.00022596E+03 # MSf(2,2,1)
1000002 4.99971351E+03 # MSf(1,3,1)
2000002 4.99987896E+03 # MSf(2,3,1)
1000001 5.00006051E+03 # MSf(1,4,1)
2000001 5.00034700E+03 # MSf(2,4,1)
1000014 6.98704182E+01 # MSf(1,1,2)
1000013 1.05858712E+02 # MSf(1,2,2)
2000013 1.41282437E+02 # MSf(2,2,2)
1000004 4.99971359E+03 # MSf(1,3,2)
2000004 4.99987921E+03 # MSf(2,3,2)
1000003 5.00005792E+03 # MSf(1,4,2)
2000003 5.00034959E+03 # MSf(2,4,2)
1000016 4.99959246E+03 # MSf(1,1,3)
1000015 4.99968878E+03 # MSf(1,2,3)
2000015 5.00071932E+03 # MSf(2,2,3)
1000006 5.00229017E+03 # MSf(1,3,3)
2000006 5.00330726E+03 # MSf(2,3,3)
1000005 4.99898517E+03 # MSf(1,4,3)
2000005 5.00142555E+03 # MSf(2,4,3)
25 1.20680156E+02 # Mh0
35 4.99948085E+03 # MHH
36 5.00000000E+03 # MA0
37 5.00025234E+03 # MHp
1000022 1.57309683E+02 # MNeu(1)
1000023 -2.95915853E+02 # MNeu(2)
1000025 3.16701460E+02 # MNeu(3)
1000035 7.99206710E+02 # MNeu(4)
1000024 1.58180173E+02 # MCha(1)
1000037 3.23412262E+02 # MCha(2)
1000021 5.00000000E+03 # MGl
BLOCK DMASS
0 1.73300003E+02 # Q
25 4.28205339E+00 # Delta Mh0
35 1.30086924E-01 # Delta MHH
36 0.00000000E+00 # Delta MA0
37 9.54052872E-03 # Delta MHp
BLOCK NMIX
1 1 -1.78312034E-02 # ZNeu(1,1)
1 2 8.98309829E-01 # ZNeu(1,2)
1 3 -3.74795876E-01 # ZNeu(1,3)
1 4 2.28581607E-01 # ZNeu(1,4)
2 1 2.51899218E-02 # ZNeu(2,1)
2 2 -1.07758235E-01 # ZNeu(2,2)
2 3 -6.93595937E-01 # ZNeu(2,3)
2 4 -7.11813393E-01 # ZNeu(2,4)
3 1 6.45061820E-02 # ZNeu(3,1)
3 2 4.25853112E-01 # ZNeu(3,2)
3 3 6.14504744E-01 # ZNeu(3,3)
3 4 -6.60962933E-01 # ZNeu(3,4)
4 1 9.97439957E-01 # ZNeu(4,1)
4 2 -8.76021819E-03 # ZNeu(4,2)
4 3 -2.89248378E-02 # ZNeu(4,3)
4 4 6.48085166E-02 # ZNeu(4,4)
BLOCK UMIX
1 1 8.61333677E-01 # UCha(1,1)
1 2 -5.08039661E-01 # UCha(1,2)
2 1 5.08039661E-01 # UCha(2,1)
2 2 8.61333677E-01 # UCha(2,2)
BLOCK VMIX
1 1 9.49270721E-01 # VCha(1,1)
1 2 -3.14460012E-01 # VCha(1,2)
2 1 3.14460012E-01 # VCha(2,1)
2 2 9.49270721E-01 # VCha(2,2)
BLOCK STAUMIX
1 1 6.91705919E-01 # USf(1,1)
1 2 7.22179286E-01 # USf(1,2)
2 1 7.22179286E-01 # USf(2,1)
2 2 -6.91705919E-01 # USf(2,2)
BLOCK STOPMIX
1 1 7.62421720E-01 # USf(1,1)
1 2 6.47080459E-01 # USf(1,2)
2 1 -6.47080459E-01 # USf(2,1)
2 2 7.62421720E-01 # USf(2,2)
BLOCK SBOTMIX
1 1 6.64308469E-01 # USf(1,1)
1 2 7.47458533E-01 # USf(1,2)
2 1 7.47458533E-01 # USf(2,1)
2 2 -6.64308469E-01 # USf(2,2)
BLOCK ALPHA
BLOCK DALPHA
BLOCK HMIX Q= -0.99900000E+03
1 2.89705000E+02 # MUE
2 1.00000000E+01 # TB
3 2.44929689E+02 # vev(Q)
BLOCK GAUGE Q= 5.00174949E+03
1 3.66096416E-01 # gprime(Q) DRbar
2 6.33646164E-01 # g(Q) DRbar
3 9.83151958E-01 # g_3(Q) DRbar
BLOCK MSOFT Q= 0.00000000E+00
1 7.96300000E+02 # M1
2 1.81002000E+02 # M2
3 5.00000000E+03 # M3
31 5.00000000E+03 # MSL(1)
32 9.46421000E+01 # MSL(2)
33 5.00000000E+03 # MSL(3)
34 5.00000000E+03 # MSE(1)
35 1.34664000E+02 # MSE(2)
36 5.00000000E+03 # MSE(3)
41 5.00000000E+03 # MSQ(1)
42 5.00000000E+03 # MSQ(2)
43 5.00000000E+03 # MSQ(3)
44 5.00000000E+03 # MSU(1)
45 5.00000000E+03 # MSU(2)
46 5.00000000E+03 # MSU(3)
47 5.00000000E+03 # MSD(1)
48 5.00000000E+03 # MSD(2)
49 5.00000000E+03 # MSD(3)
BLOCK AE Q= 0.00000000E+00
1 1 0.00000000E+00 # Af(1,1)
2 2 0.00000000E+00 # Af(2,2)
3 3 0.00000000E+00 # Af(3,3)
BLOCK AU Q= 0.00000000E+00
1 1 0.00000000E+00 # Af(1,1)
2 2 0.00000000E+00 # Af(2,2)
3 3 0.00000000E+00 # Af(3,3)
BLOCK AD Q= 0.00000000E+00
1 1 0.00000000E+00 # Af(1,1)
2 2 0.00000000E+00 # Af(2,2)
3 3 0.00000000E+00 # Af(3,3)
BLOCK YE Q= 0.00000000E+00
1 1 2.94968096E-05 # Yf(1,1)
2 2 6.09900417E-03 # Yf(2,2)
3 3 1.02576963E-01 # Yf(3,3)
BLOCK YU Q= 0.00000000E+00
1 1 1.73171465E-05 # Yf(1,1)
2 2 7.42328349E-03 # Yf(2,2)
3 3 1.00035385E+00 # Yf(3,3)
BLOCK YD Q= 0.00000000E+00
1 1 3.44925577E-04 # Yf(1,1)
2 2 5.46132181E-03 # Yf(2,2)
3 3 2.41452529E-01 # Yf(3,3)
BLOCK VCKMIN
1 2.25300000E-01 # lambda
2 8.08000000E-01 # A
3 1.32000000E-01 # rhobar
4 3.41000000E-01 # etabar
BLOCK MSL2 Q= 0.00000000E+00
1 1 2.50000000E+07 # MSL2(1,1)
2 2 8.95712709E+03 # MSL2(2,2)
3 3 2.50000000E+07 # MSL2(3,3)
BLOCK MSE2 Q= 0.00000000E+00
1 1 2.50000000E+07 # MSE2(1,1)
2 2 1.81343929E+04 # MSE2(2,2)
3 3 2.50000000E+07 # MSE2(3,3)
BLOCK MSQ2 Q= 0.00000000E+00
1 1 2.50000000E+07 # MSQ2(1,1)
2 2 2.50000000E+07 # MSQ2(2,2)
3 3 2.50000000E+07 # MSQ2(3,3)
BLOCK MSU2 Q= 0.00000000E+00
1 1 2.50000000E+07 # MSU2(1,1)
2 2 2.50000000E+07 # MSU2(2,2)
3 3 2.50000000E+07 # MSU2(3,3)
BLOCK MSD2 Q= 0.00000000E+00
1 1 2.50000000E+07 # MSD2(1,1)
2 2 2.50000000E+07 # MSD2(2,2)
3 3 2.50000000E+07 # MSD2(3,3)
BLOCK TE Q= 0.00000000E+00
1 1 0.00000000E+00 # Tf(1,1)
2 2 0.00000000E+00 # Tf(2,2)
3 3 0.00000000E+00 # Tf(3,3)
BLOCK TU Q= 0.00000000E+00
1 1 0.00000000E+00 # Tf(1,1)
2 2 0.00000000E+00 # Tf(2,2)
3 3 0.00000000E+00 # Tf(3,3)
BLOCK TD Q= 0.00000000E+00
1 1 0.00000000E+00 # Tf(1,1)
2 2 0.00000000E+00 # Tf(2,2)
3 3 0.00000000E+00 # Tf(3,3)
BLOCK CVHMIX
1 1 9.99993811E-01 # UH(1,1)
1 2 3.51815975E-03 # UH(1,2)
1 3 0.00000000E+00 # UH(1,3)
2 1 -3.51815975E-03 # UH(2,1)
2 2 9.99993811E-01 # UH(2,2)
2 3 0.00000000E+00 # UH(2,3)
3 1 0.00000000E+00 # UH(3,1)
3 2 0.00000000E+00 # UH(3,2)
3 3 1.00000000E+00 # UH(3,3)
BLOCK PRECOBS
1 1.82345188E-04 # DeltaRho
2 8.03743228E+01 # MWMSSM
3 8.03640522E+01 # MWSM
4 2.31437837E-01 # SW2effMSSM
5 2.31494774E-01 # SW2effSM
11 3.62993091E-09 # gminus2mu
21 0.00000000E+00 # EDMeTh
22 0.00000000E+00 # EDMn
23 0.00000000E+00 # EDMHg
31 3.92316165E-04 # bsgammaMSSM
32 3.90062733E-04 # bsgammaSM
33 2.10258252E+01 # DeltaMsMSSM
34 2.10124818E+01 # DeltaMsSM
35 9.17324244E-08 # BsmumuMSSM
36 3.54416741E-09 # BsmumuSM
DECAY 25 3.43090408E-03 # Gamma(h0)
2.31186136E-03 2 22 22 # BR(h0 -> photon photon)
1.16576326E-03 2 22 23 # BR(h0 -> photon Z)
1.81672923E-02 2 23 23 # BR(h0 -> Z Z)
1.63721283E-01 2 -24 24 # BR(h0 -> W W)
7.47206393E-02 2 21 21 # BR(h0 -> gluon gluon)
5.58624329E-09 2 -11 11 # BR(h0 -> Electron electron)
2.46816908E-04 2 -13 13 # BR(h0 -> Muon muon)
7.16428138E-02 2 -15 15 # BR(h0 -> Tau tau)
2.31291354E-07 2 -2 2 # BR(h0 -> Up up)
3.23618367E-02 2 -4 4 # BR(h0 -> Charm charm)
9.44242210E-07 2 -1 1 # BR(h0 -> Down down)
2.37131861E-04 2 -3 3 # BR(h0 -> Strange strange)
6.35423380E-01 2 -5 5 # BR(h0 -> Bottom bottom)
DECAY 35 7.85997102E+01 # Gamma(HH)
8.77918334E-08 2 22 22 # BR(HH -> photon photon)
1.30352585E-07 2 22 23 # BR(HH -> photon Z)
2.27053644E-02 2 23 23 # BR(HH -> Z Z)
3.75610453E-03 2 -24 24 # BR(HH -> W W)
2.53389186E-06 2 21 21 # BR(HH -> gluon gluon)
9.00242970E-10 2 -11 11 # BR(HH -> Electron electron)
4.06095961E-05 2 -13 13 # BR(HH -> Muon muon)
1.15795773E-02 2 -15 15 # BR(HH -> Tau tau)
2.65003012E-12 2 -2 2 # BR(HH -> Up up)
3.71306466E-07 2 -4 4 # BR(HH -> Charm charm)
2.76155332E-02 2 -6 6 # BR(HH -> Top top)
8.97988125E-08 2 -1 1 # BR(HH -> Down down)
2.25531925E-05 2 -3 3 # BR(HH -> Strange strange)
5.88156580E-02 2 -5 5 # BR(HH -> Bottom bottom)
1.08678194E-01 2 -1000024 1000024 # BR(HH -> Chargino1 chargino1)
2.00733062E-01 2 -1000037 1000024 # BR(HH -> Chargino2 chargino1)
2.00733062E-01 2 -1000024 1000037 # BR(HH -> Chargino1 chargino2)
2.48081727E-02 2 -1000037 1000037 # BR(HH -> Chargino2 chargino2)
5.35000080E-02 2 1000022 1000022 # BR(HH -> neutralino1 neutralino1)
1.14657050E-01 2 1000022 1000023 # BR(HH -> neutralino1 neutralino2)
3.32645794E-02 2 1000022 1000025 # BR(HH -> neutralino1 neutralino3)
7.23119844E-03 2 1000022 1000035 # BR(HH -> neutralino1 neutralino4)
4.56169778E-03 2 1000023 1000023 # BR(HH -> neutralino2 neutralino2)
3.57333285E-02 2 1000023 1000025 # BR(HH -> neutralino2 neutralino3)
4.54293419E-02 2 1000023 1000035 # BR(HH -> neutralino2 neutralino4)
2.34682782E-02 2 1000025 1000025 # BR(HH -> neutralino3 neutralino3)
2.25781530E-02 2 1000025 1000035 # BR(HH -> neutralino3 neutralino4)
6.39831948E-05 2 1000035 1000035 # BR(HH -> neutralino4 neutralino4)
1.75693465E-05 2 25 25 # BR(HH -> h0 h0)
7.52262558E-07 2 -1000013 1000013 # BR(HH -> Smuon1 smuon1)
1.31887532E-09 2 -1000013 2000013 # BR(HH -> Smuon1 smuon2)
1.31887532E-09 2 -2000013 1000013 # BR(HH -> Smuon2 smuon1)
4.91148930E-07 2 -2000013 2000013 # BR(HH -> Smuon2 smuon2)
DECAY 36 7.37528956E+01 # Gamma(A0)
7.48099034E-08 2 22 22 # BR(A0 -> photon photon)
9.49083281E-08 2 22 23 # BR(A0 -> photon Z)
7.73193188E-06 2 21 21 # BR(A0 -> gluon gluon)
9.27038873E-10 2 -11 11 # BR(A0 -> Electron electron)
4.18188314E-05 2 -13 13 # BR(A0 -> Muon muon)
1.19242626E-02 2 -15 15 # BR(A0 -> Tau tau)
2.54296741E-12 2 -2 2 # BR(A0 -> Up up)
3.56303934E-07 2 -4 4 # BR(A0 -> Charm charm)
2.66089227E-02 2 -6 6 # BR(A0 -> Top top)
9.24705067E-08 2 -1 1 # BR(A0 -> Down down)
2.32242171E-05 2 -3 3 # BR(A0 -> Strange strange)
6.05649474E-02 2 -5 5 # BR(A0 -> Bottom bottom)
1.42332311E-01 2 -1000024 1000024 # BR(A0 -> Chargino1 chargino1)
1.76327197E-01 2 -1000037 1000024 # BR(A0 -> Chargino2 chargino1)
1.76327197E-01 2 -1000024 1000037 # BR(A0 -> Chargino1 chargino2)
5.54978869E-02 2 -1000037 1000037 # BR(A0 -> Chargino2 chargino2)
7.15023761E-02 2 1000022 1000022 # BR(A0 -> neutralino1 neutralino1)
7.24926886E-02 2 1000022 1000023 # BR(A0 -> neutralino1 neutralino2)
5.83835916E-02 2 1000022 1000025 # BR(A0 -> neutralino1 neutralino3)
8.87797802E-03 2 1000022 1000035 # BR(A0 -> neutralino1 neutralino4)
3.10850724E-03 2 1000023 1000023 # BR(A0 -> neutralino2 neutralino2)
2.85694948E-02 2 1000023 1000025 # BR(A0 -> neutralino2 neutralino3)
2.97295446E-02 2 1000023 1000035 # BR(A0 -> neutralino2 neutralino4)
3.86787506E-02 2 1000025 1000025 # BR(A0 -> neutralino3 neutralino3)
3.88038864E-02 2 1000025 1000035 # BR(A0 -> neutralino3 neutralino4)
1.92337498E-04 2 1000035 1000035 # BR(A0 -> neutralino4 neutralino4)
4.72348374E-06 2 23 25 # BR(A0 -> Z h0)
2.96130737E-37 2 25 25 # BR(A0 -> h0 h0)
8.03916061E-10 2 -1000013 2000013 # BR(A0 -> Smuon1 smuon2)
8.03916061E-10 2 -2000013 1000013 # BR(A0 -> Smuon2 smuon1)
DECAY 37 7.45312688E+01 # Gamma(Hp)
1.10995534E-09 2 -11 12 # BR(Hp -> Electron nu_e)
4.74540494E-05 2 -13 14 # BR(Hp -> Muon nu_mu)
1.34231666E-02 2 -15 16 # BR(Hp -> Tau nu_tau)
9.62628385E-08 2 -1 2 # BR(Hp -> Down up)
1.13498055E-06 2 -3 2 # BR(Hp -> Strange up)
7.33729307E-07 2 -5 2 # BR(Hp -> Bottom up)
2.02222067E-08 2 -1 4 # BR(Hp -> Down charm)
2.44247392E-05 2 -3 4 # BR(Hp -> Strange charm)
1.02748898E-04 2 -5 4 # BR(Hp -> Bottom charm)
1.71085357E-06 2 -1 6 # BR(Hp -> Down top)
3.73382643E-05 2 -3 6 # BR(Hp -> Strange top)
9.52973458E-02 2 -5 6 # BR(Hp -> Bottom top)
8.86069055E-06 2 1000022 1000024 # BR(Hp -> neutralino1 chargino1)
2.90876609E-01 2 1000022 1000037 # BR(Hp -> neutralino1 chargino2)
2.17324130E-01 2 1000023 1000024 # BR(Hp -> neutralino2 chargino1)
4.71133797E-02 2 1000023 1000037 # BR(Hp -> neutralino2 chargino2)
2.62987026E-01 2 1000024 1000025 # BR(Hp -> chargino1 neutralino3)
5.92783171E-04 2 1000025 1000037 # BR(Hp -> neutralino3 chargino2)
1.38501437E-02 2 1000024 1000035 # BR(Hp -> chargino1 neutralino4)
5.83034333E-02 2 1000035 1000037 # BR(Hp -> neutralino4 chargino2)
4.67590391E-06 2 24 25 # BR(Hp -> W h0)
2.77418485E-06 2 -1000013 1000014 # BR(Hp -> Smuon1 snu_mu1)
9.64580254E-09 2 -2000013 1000014 # BR(Hp -> Smuon2 snu_mu1)
DECAY 6 1.37512570E+00 # Gamma(top)
1.00000000E+00 2 5 24 # BR(top -> bottom W)
Revision history for this message
|
#9 |
The corresponding Param_Card output is:-
##*****
## MadGraph/MadEvent *
##*****
## 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 FeynHiggs
2 built
#
BLOCK MODSEL # Model selection
1 0 #
#
BLOCK SMINPUTS # Standard Model inputs
1 1.28900000E+02 # alpha_em^
2 1.16600000E-05 # G_F [GeV^-2]
3 1.19000000E-01 # alpha_S(M_Z)^MSbar
4 9.11880000E+01 # M_Z pole mass
5 4.20000000E+00 # mb(mb)^MSbar
6 1.74000000E+02 # mt pole mass
7 1.77700000E+00 # mtau pole mass
#
BLOCK MINPAR # Input parameters - minimal models
3 1.00000000E+01 # TB
#
BLOCK EXTPAR # Input parameters - non-minimal models
1 7.96300000E+02 # M1
2 1.81002000E+02 # M2
3 5.00000000E+03 # M3
23 2.89705000E+02 # MUE
25 1.00000000E+01 # TB
26 5.00000000E+03 # MA0
27 5.00064625E+03 # MHp
31 5.00000000E+03 # MSL(1)
32 9.46421000E+01 # MSL(2)
33 5.00000000E+03 # MSL(3)
34 5.00000000E+03 # MSE(1)
35 1.34664000E+02 # MSE(2)
36 5.00000000E+03 # MSE(3)
41 5.00000000E+03 # MSQ(1)
42 5.00000000E+03 # MSQ(2)
43 5.00000000E+03 # MSQ(3)
44 5.00000000E+03 # MSU(1)
45 5.00000000E+03 # MSU(2)
46 5.00000000E+03 # MSU(3)
47 5.00000000E+03 # MSD(1)
48 5.00000000E+03 # MSD(2)
49 5.00000000E+03 # MSD(3)
#
BLOCK MASS # Mass Spectrum
# PDG code mass particle
5 4.84942261E+00 # b-quark pole mass calculated from mb(mb)_Msbar
6 1.74000000E+02 # t-quark pole mass (not read by ME)
24 7.99544999E+01 # W+
25 1.20680156E+02 # h
35 4.99948085E+03 # H
36 5.00000000E+03 # A
37 5.00025234E+03 # H+
1000001 5.00005792E+03 # ~d_L
2000001 5.00034959E+03 # ~d_R
1000002 4.99971351E+03 # ~u_L
2000002 4.99987896E+03 # ~u_R
1000003 5.00005792E+03 # ~s_L
2000003 5.00034959E+03 # ~s_R
1000004 4.99971351E+03 # ~c_L
2000004 4.99987896E+03 # ~c_R
1000005 4.99898517E+03 # ~b_1
2000005 5.00142555E+03 # ~b_2
1000006 5.00229017E+03 # ~t_1
2000006 5.00330726E+03 # ~t_2
1000011 5.00018156E+03 # ~e_L
2000011 5.00022596E+03 # ~e_R
1000012 4.99959246E+03 # ~nu_eL
1000013 5.00018156E+03 # ~mu_L
2000013 5.00022596E+03 # ~mu_R
1000014 4.99959246E+03 # ~nu_muL
1000015 4.99968878E+03 # ~tau_1
2000015 5.00071932E+03 # ~tau_2
1000016 4.99959246E+03 # ~nu_tauL
1000021 5.00000000E+03 # ~g
1000022 1.57309683E+02 # ~chi_10
1000023 -2.95915853E+02 # ~chi_20
1000025 3.16701460E+02 # ~chi_30
1000035 7.99206710E+02 # ~chi_40
1000024 1.58180173E+02 # ~chi_1+
1000037 3.23412262E+02 # ~chi_2+
#
BLOCK NMIX # Neutralino Mixing Matrix
1 1 -1.78312034E-02 # N_11
1 2 8.98309829E-01 # N_12
1 3 -3.74795876E-01 # N_13
1 4 2.28581607E-01 # N_14
2 1 2.51899218E-02 # N_21
2 2 -1.07758235E-01 # N_22
2 3 -6.93595937E-01 # N_23
2 4 -7.11813393E-01 # N_24
3 1 6.45061820E-02 # N_31
3 2 4.25853112E-01 # N_32
3 3 6.14504744E-01 # N_33
3 4 -6.60962933E-01 # N_34
4 1 9.97439957E-01 # N_41
4 2 -8.76021819E-03 # N_42
4 3 -2.89248378E-02 # N_43
4 4 6.48085166E-02 # N_44
#
BLOCK UMIX # Chargino Mixing Matrix U
1 1 8.61333677E-01 # U_11
1 2 -5.08039661E-01 # U_12
2 1 5.08039661E-01 # U_21
2 2 8.61333677E-01 # U_22
#
BLOCK VMIX # Chargino Mixing Matrix V
1 1 9.49270721E-01 # V_11
1 2 -3.14460012E-01 # V_12
2 1 3.14460012E-01 # V_21
2 2 9.49270721E-01 # V_22
#
BLOCK STOPMIX # Stop Mixing Matrix
1 1 7.62421720E-01 # O_{11}
1 2 6.47080459E-01 # O_{12}
2 1 -6.47080459E-01 # O_{21}
2 2 7.62421720E-01 # O_{22}
#
BLOCK SBOTMIX # Sbottom Mixing Matrix
1 1 6.64308469E-01 # O_{11}
1 2 7.47458533E-01 # O_{12}
2 1 7.47458533E-01 # O_{21}
2 2 -6.64308469E-01 # O_{22}
#
BLOCK STAUMIX # Stau Mixing Matrix
1 1 6.91705919E-01 # O_{11}
1 2 7.22179286E-01 # O_{12}
2 1 7.22179286E-01 # O_{21}
2 2 -6.91705919E-01 # O_{22}
#
BLOCK ALPHA # Higgs mixing
#
BLOCK HMIX Q= -9.99000000E+02 # DRbar Higgs Parameters
1 2.89705000E+02 # MUE
2 1.00000000E+01 # TB
3 2.44929689E+02 # vev(Q)
#
BLOCK GAUGE Q= 5.00174949E+03 # The gauge couplings
3 9.83604694E-01 # g3(Q) MSbar
#
BLOCK AU Q= 0.00000000E+00 # The trilinear couplings
3 3 0.00000000E+00 # A_t(Q) DRbar
#
BLOCK AD Q= 0.00000000E+00 # The trilinear couplings
3 3 0.00000000E+00 # A_b(Q) DRbar
#
BLOCK AE Q= 0.00000000E+00 # The trilinear couplings
3 3 0.00000000E+00 # A_tau(Q) DRbar
#
BLOCK YU Q= 0.00000000E+00 # The Yukawa couplings
3 3 1.00035385E+00 # y_t(Q) DRbar
#
BLOCK YD Q= 0.00000000E+00 # The Yukawa couplings
3 3 2.41452529E-01 # y_b(Q) DRbar
#
BLOCK YE Q= 0.00000000E+00 # The Yukawa couplings
3 3 1.02576963E-01 # y_tau(Q) DRbar
#
BLOCK MSOFT Q= 0.00000000E+00 # The soft SUSY breaking masses at the scale Q
1 7.96300000E+02 # M1
2 1.81002000E+02 # M2
3 5.00000000E+03 # M3
27 5.00064625E+03 # MHp
31 5.00000000E+03 # MSL(1)
32 9.46421000E+01 # MSL(2)
33 5.00000000E+03 # MSL(3)
34 5.00000000E+03 # MSE(1)
35 1.34664000E+02 # MSE(2)
36 5.00000000E+03 # MSE(3)
41 5.00000000E+03 # MSQ(1)
42 5.00000000E+03 # MSQ(2)
43 5.00000000E+03 # MSQ(3)
44 5.00000000E+03 # MSU(1)
45 5.00000000E+03 # MSU(2)
46 5.00000000E+03 # MSU(3)
47 5.00000000E+03 # MSD(1)
48 5.00000000E+03 # MSD(2)
49 5.00000000E+03 # MSD(3)
#
#
#
# =================
# |The decay table|
# =================
#
# - The multi-body decays for the inos, stops and sbottoms are included.
#
# - The SUSY decays of the top quark are included.
#
#
# PDG Width
DECAY 23 2.41718724E+00 # Z width (SM calculation)
DECAY 24 2.01195340E+00 # W width (SM calculation)
#
# PDG Width
DECAY 6 1.52958073E+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 25 4.95401262E-03 # h decays
# BR NDA ID1 ID2
5.40992639E-02 2 15 -15 # BR(H1 -> tau- tau+)
8.91703246E-01 2 5 -5 # BR(H1 -> b bb)
4.97676342E-02 2 24 -24 # BR(H1 -> W+ W-)
4.42985547E-03 2 23 23 # BR(H1 -> Z Z)
#
# PDG Width
DECAY 35 2.21838849E+01 # H decays
# BR NDA ID1 ID2
4.66743842E-02 2 15 -15 # BR(H -> tau- tau+)
1.41948237E-01 2 6 -6 # BR(H -> t tb)
7.75821075E-01 2 5 -5 # BR(H -> b bb)
2.36834204E-02 2 24 -24 # BR(H -> W+ W-)
1.18362465E-02 2 23 23 # BR(H -> Z Z)
0.00000000E+00 2 24 -37 # BR(H -> W+ H-)
0.00000000E+00 2 -24 37 # BR(H -> W- H+)
0.00000000E+00 2 37 -37 # BR(H -> H+ H-)
3.66370288E-05 2 25 25 # BR(H -> h h)
0.00000000E+00 2 36 36 # BR(H -> A A)
#
# PDG Width
DECAY 36 2.17358688E+01 # A decays
# BR NDA ID1 ID2
4.76761674E-02 2 15 -15 # BR(A -> tau- tau+)
1.35698757E-01 2 6 -6 # BR(A -> t tb)
7.92475285E-01 2 5 -5 # BR(A -> b bb)
2.41497906E-02 2 23 25 # BR(A -> Z h)
0.00000000E+00 2 23 35 # BR(A -> Z H)
0.00000000E+00 2 24 -37 # BR(A -> W+ H-)
0.00000000E+00 2 -24 37 # BR(A -> W- H+)
#
# PDG Width
DECAY 37 2.16948210E+01 # H+ decays
# BR NDA ID1 ID2
4.77687899E-02 2 -15 16 # BR(H+ -> tau+ nu_tau)
9.28026462E-01 2 6 -5 # BR(H+ -> t bb)
2.42047478E-02 2 24 25 # BR(H+ -> W+ h)
0.00000000E+00 2 24 35 # BR(H+ -> W+ H)
0.00000000E+00 2 24 36 # BR(H+ -> W+ A)
#
# PDG Width
DECAY 1000021 2.97863459E-06 # gluino decays
# BR NDA ID1 ID2
0.00000000E+00 2 1000001 -1 # BR(~g -> ~d_L db)
0.00000000E+00 2 -1000001 1 # BR(~g -> ~d_L* d )
0.00000000E+00 2 2000001 -1 # BR(~g -> ~d_R db)
0.00000000E+00 2 -2000001 1 # BR(~g -> ~d_R* d )
2.12132956E-01 2 1000002 -2 # BR(~g -> ~u_L ub)
2.12132956E-01 2 -1000002 2 # BR(~g -> ~u_L* u )
3.78670444E-02 2 2000002 -2 # BR(~g -> ~u_R ub)
3.78670444E-02 2 -2000002 2 # BR(~g -> ~u_R* u )
0.00000000E+00 2 1000003 -3 # BR(~g -> ~s_L sb)
0.00000000E+00 2 -1000003 3 # BR(~g -> ~s_L* s )
0.00000000E+00 2 2000003 -3 # BR(~g -> ~s_R sb)
0.00000000E+00 2 -2000003 3 # BR(~g -> ~s_R* s )
2.12132956E-01 2 1000004 -4 # BR(~g -> ~c_L cb)
2.12132956E-01 2 -1000004 4 # BR(~g -> ~c_L* c )
3.78670444E-02 2 2000004 -4 # BR(~g -> ~c_R cb)
3.78670444E-02 2 -2000004 4 # BR(~g -> ~c_R* c )
0.00000000E+00 2 1000005 -5 # BR(~g -> ~b_1 bb)
0.00000000E+00 2 -1000005 5 # BR(~g -> ~b_1* b )
0.00000000E+00 2 2000005 -5 # BR(~g -> ~b_2 bb)
0.00000000E+00 2 -2000005 5 # BR(~g -> ~b_2* b )
0.00000000E+00 2 1000006 -6 # BR(~g -> ~t_1 tb)
0.00000000E+00 2 -1000006 6 # BR(~g -> ~t_1* t )
0.00000000E+00 2 2000006 -6 # BR(~g -> ~t_2 tb)
0.00000000E+00 2 -2000006 6 # BR(~g -> ~t_2* t )
#
# PDG Width
DECAY 1000006 1.84982062E+02 # stop1 decays
# BR NDA ID1 ID2
1.30794811E-01 2 1000022 6 # BR(~t_1 -> ~chi_10 t )
2.93025076E-01 2 1000023 6 # BR(~t_1 -> ~chi_20 t )
1.82403585E-01 2 1000025 6 # BR(~t_1 -> ~chi_30 t )
1.98320402E-02 2 1000035 6 # BR(~t_1 -> ~chi_40 t )
2.48247201E-01 2 1000024 5 # BR(~t_1 -> ~chi_1+ b )
1.25697286E-01 2 1000037 5 # BR(~t_1 -> ~chi_2+ b )
0.00000000E+00 2 1000021 6 # BR(~t_1 -> ~g t )
0.00000000E+00 2 1000005 37 # BR(~t_1 -> ~b_1 H+)
0.00000000E+00 2 2000005 37 # BR(~t_1 -> ~b_2 H+)
0.00000000E+00 2 1000005 24 # BR(~t_1 -> ~b_1 W+)
0.00000000E+00 2 2000005 24 # BR(~t_1 -> ~b_2 W+)
#
# PDG Width
DECAY 2000006 1.91010239E+02 # stop2 decays
# BR NDA ID1 ID2
1.49914675E-02 2 1000022 6 # BR(~t_2 -> ~chi_10 t )
2.41006448E-01 2 1000023 6 # BR(~t_2 -> ~chi_20 t )
2.95817630E-01 2 1000025 6 # BR(~t_2 -> ~chi_30 t )
4.36134306E-02 2 1000035 6 # BR(~t_2 -> ~chi_40 t )
1.64288891E-02 2 1000024 5 # BR(~t_2 -> ~chi_1+ b )
3.88142134E-01 2 1000037 5 # BR(~t_2 -> ~chi_2+ b )
0.00000000E+00 2 1000021 6 # BR(~t_2 -> ~g t )
0.00000000E+00 2 1000006 25 # BR(~t_2 -> ~t_1 h )
0.00000000E+00 2 1000006 35 # BR(~t_2 -> ~t_1 H )
0.00000000E+00 2 1000006 36 # BR(~t_2 -> ~t_1 A )
0.00000000E+00 2 1000005 37 # BR(~t_2 -> ~b_1 H+)
0.00000000E+00 2 2000005 37 # BR(~t_2 -> ~b_2 H+)
0.00000000E+00 2 1000006 23 # BR(~t_2 -> ~t_1 Z )
0.00000000E+00 2 1000005 24 # BR(~t_2 -> ~b_1 W+)
0.00000000E+00 2 2000005 24 # BR(~t_2 -> ~b_2 W+)
#
# PDG Width
DECAY 1000005 8.19053713E+01 # sbottom1 decays
# BR NDA ID1 ID2
1.46980573E-01 2 1000022 5 # BR(~b_1 -> ~chi_10 b )
2.40537203E-02 2 1000023 5 # BR(~b_1 -> ~chi_20 b )
1.39887086E-02 2 1000025 5 # BR(~b_1 -> ~chi_30 b )
1.99869252E-02 2 1000035 5 # BR(~b_1 -> ~chi_40 b )
3.11685443E-01 2 -1000024 6 # BR(~b_1 -> ~chi_1- t )
4.83304630E-01 2 -1000037 6 # BR(~b_1 -> ~chi_2- t )
0.00000000E+00 2 1000021 5 # BR(~b_1 -> ~g b )
0.00000000E+00 2 1000006 -37 # BR(~b_1 -> ~t_1 H-)
0.00000000E+00 2 2000006 -37 # BR(~b_1 -> ~t_2 H-)
0.00000000E+00 2 1000006 -24 # BR(~b_1 -> ~t_1 W-)
0.00000000E+00 2 2000006 -24 # BR(~b_1 -> ~t_2 W-)
#
# PDG Width
DECAY 2000005 1.00028471E+02 # sbottom2 decays
# BR NDA ID1 ID2
6.59794260E-02 2 1000022 5 # BR(~b_2 -> ~chi_10 b )
3.83457638E-02 2 1000023 5 # BR(~b_2 -> ~chi_20 b )
6.77758217E-02 2 1000025 5 # BR(~b_2 -> ~chi_30 b )
1.74717777E-02 2 1000035 5 # BR(~b_2 -> ~chi_40 b )
1.66588554E-01 2 -1000024 6 # BR(~b_2 -> ~chi_1- t )
6.43838657E-01 2 -1000037 6 # BR(~b_2 -> ~chi_2- t )
0.00000000E+00 2 1000021 5 # BR(~b_2 -> ~g b )
0.00000000E+00 2 1000005 25 # BR(~b_2 -> ~b_1 h )
0.00000000E+00 2 1000005 35 # BR(~b_2 -> ~b_1 H )
0.00000000E+00 2 1000005 36 # BR(~b_2 -> ~b_1 A )
0.00000000E+00 2 1000006 -37 # BR(~b_2 -> ~t_1 H-)
0.00000000E+00 2 2000006 -37 # BR(~b_2 -> ~t_2 H-)
0.00000000E+00 2 1000005 23 # BR(~b_2 -> ~b_1 Z )
0.00000000E+00 2 1000006 -24 # BR(~b_2 -> ~t_1 W-)
0.00000000E+00 2 2000006 -24 # BR(~b_2 -> ~t_2 W-)
#
# PDG Width
DECAY 1000002 6.34025234E+01 # sup_L decays
# BR NDA ID1 ID2
2.64443371E-01 2 1000022 2 # BR(~u_L -> ~chi_10 u)
3.49476891E-03 2 1000023 2 # BR(~u_L -> ~chi_20 u)
6.28419024E-02 2 1000025 2 # BR(~u_L -> ~chi_30 u)
9.46161967E-03 2 1000035 2 # BR(~u_L -> ~chi_40 u)
5.94892374E-01 2 1000024 1 # BR(~u_L -> ~chi_1+ d)
6.48659637E-02 2 1000037 1 # BR(~u_L -> ~chi_2+ d)
0.00000000E+00 2 1000021 2 # BR(~u_L -> ~g u)
#
# PDG Width
DECAY 2000002 1.06488502E+01 # sup_R decays
# BR NDA ID1 ID2
3.34104224E-04 2 1000022 2 # BR(~u_R -> ~chi_10 u)
6.63417145E-04 2 1000023 2 # BR(~u_R -> ~chi_20 u)
4.34601905E-03 2 1000025 2 # BR(~u_R -> ~chi_30 u)
9.94656460E-01 2 1000035 2 # BR(~u_R -> ~chi_40 u)
0.00000000E+00 2 1000024 1 # BR(~u_R -> ~chi_1+ d)
0.00000000E+00 2 1000037 1 # BR(~u_R -> ~chi_2+ d)
0.00000000E+00 2 1000021 2 # BR(~u_R -> ~g u)
#
# PDG Width
DECAY 1000001 6.33603548E+01 # sdown_L decays
# BR NDA ID1 ID2
2.68506643E-01 2 1000022 1 # BR(~d_L -> ~chi_10 d)
4.14968645E-03 2 1000023 1 # BR(~d_L -> ~chi_20 d)
5.62930681E-02 2 1000025 1 # BR(~d_L -> ~chi_30 d)
1.14766722E-02 2 1000035 1 # BR(~d_L -> ~chi_40 d)
4.90139907E-01 2 -1000024 2 # BR(~d_L -> ~chi_1- u)
1.69434021E-01 2 -1000037 2 # BR(~d_L -> ~chi_2- u)
2.17399977E-09 2 1000021 1 # BR(~d_L -> ~g d)
#
# PDG Width
DECAY 2000001 2.66249431E+00 # sdown_R decays
# BR NDA ID1 ID2
3.34100437E-04 2 1000022 1 # BR(~d_R -> ~chi_10 d)
6.63410254E-04 2 1000023 1 # BR(~d_R -> ~chi_20 d)
4.34597475E-03 2 1000025 1 # BR(~d_R -> ~chi_30 d)
9.94654630E-01 2 1000035 1 # BR(~d_R -> ~chi_40 d)
0.00000000E+00 2 -1000024 2 # BR(~d_R -> ~chi_1- u)
0.00000000E+00 2 -1000037 2 # BR(~d_R -> ~chi_2- u)
1.88451082E-06 2 1000021 1 # BR(~d_R -> ~g d)
#
# PDG Width
DECAY 1000004 6.34025234E+01 # scharm_L decays
# BR NDA ID1 ID2
2.64443371E-01 2 1000022 4 # BR(~c_L -> ~chi_10 c)
3.49476891E-03 2 1000023 4 # BR(~c_L -> ~chi_20 c)
6.28419024E-02 2 1000025 4 # BR(~c_L -> ~chi_30 c)
9.46161967E-03 2 1000035 4 # BR(~c_L -> ~chi_40 c)
5.94892374E-01 2 1000024 3 # BR(~c_L -> ~chi_1+ s)
6.48659637E-02 2 1000037 3 # BR(~c_L -> ~chi_2+ s)
0.00000000E+00 2 1000021 4 # BR(~c_L -> ~g c)
#
# PDG Width
DECAY 2000004 1.06488502E+01 # scharm_R decays
# BR NDA ID1 ID2
3.34104224E-04 2 1000022 4 # BR(~c_R -> ~chi_10 c)
6.63417145E-04 2 1000023 4 # BR(~c_R -> ~chi_20 c)
4.34601905E-03 2 1000025 4 # BR(~c_R -> ~chi_30 c)
9.94656460E-01 2 1000035 4 # BR(~c_R -> ~chi_40 c)
0.00000000E+00 2 1000024 3 # BR(~c_R -> ~chi_1+ s)
0.00000000E+00 2 1000037 3 # BR(~c_R -> ~chi_2+ s)
0.00000000E+00 2 1000021 4 # BR(~c_R -> ~g c)
#
# PDG Width
DECAY 1000003 6.33603548E+01 # sstrange_L decays
# BR NDA ID1 ID2
2.68506643E-01 2 1000022 3 # BR(~s_L -> ~chi_10 s)
4.14968645E-03 2 1000023 3 # BR(~s_L -> ~chi_20 s)
5.62930681E-02 2 1000025 3 # BR(~s_L -> ~chi_30 s)
1.14766722E-02 2 1000035 3 # BR(~s_L -> ~chi_40 s)
4.90139907E-01 2 -1000024 4 # BR(~s_L -> ~chi_1- c)
1.69434021E-01 2 -1000037 4 # BR(~s_L -> ~chi_2- c)
2.17399977E-09 2 1000021 3 # BR(~s_L -> ~g s)
#
# PDG Width
DECAY 2000003 2.66249431E+00 # sstrange_R decays
# BR NDA ID1 ID2
3.34100437E-04 2 1000022 3 # BR(~s_R -> ~chi_10 s)
6.63410254E-04 2 1000023 3 # BR(~s_R -> ~chi_20 s)
4.34597475E-03 2 1000025 3 # BR(~s_R -> ~chi_30 s)
9.94654630E-01 2 1000035 3 # BR(~s_R -> ~chi_40 s)
0.00000000E+00 2 -1000024 4 # BR(~s_R -> ~chi_1- c)
0.00000000E+00 2 -1000037 4 # BR(~s_R -> ~chi_2- c)
1.88451082E-06 2 1000021 3 # BR(~s_R -> ~g s)
#
# PDG Width
DECAY 1000011 6.86950407E+01 # selectron_L decays
# BR NDA ID1 ID2
2.40549915E-01 2 1000022 11 # BR(~e_L -> ~chi_10 e-)
2.67554594E-03 2 1000023 11 # BR(~e_L -> ~chi_20 e-)
6.44257785E-02 2 1000025 11 # BR(~e_L -> ~chi_30 e-)
8.39805497E-02 2 1000035 11 # BR(~e_L -> ~chi_40 e-)
4.52088085E-01 2 -1000024 12 # BR(~e_L -> ~chi_1- nu_e)
1.56280126E-01 2 -1000037 12 # BR(~e_L -> ~chi_2- nu_e)
#
# PDG Width
DECAY 2000011 2.39617494E+01 # selectron_R decays
# BR NDA ID1 ID2
3.34101896E-04 2 1000022 11 # BR(~e_R -> ~chi_10 e-)
6.63412986E-04 2 1000023 11 # BR(~e_R -> ~chi_20 e-)
4.34599243E-03 2 1000025 11 # BR(~e_R -> ~chi_30 e-)
9.94656493E-01 2 1000035 11 # BR(~e_R -> ~chi_40 e-)
0.00000000E+00 2 -1000024 12 # BR(~e_R -> ~chi_1- nu_e)
0.00000000E+00 2 -1000037 12 # BR(~e_R -> ~chi_2- nu_e)
#
# PDG Width
DECAY 1000013 6.86950407E+01 # smuon_L decays
# BR NDA ID1 ID2
2.40549915E-01 2 1000022 13 # BR(~mu_L -> ~chi_10 mu-)
2.67554594E-03 2 1000023 13 # BR(~mu_L -> ~chi_20 mu-)
6.44257785E-02 2 1000025 13 # BR(~mu_L -> ~chi_30 mu-)
8.39805497E-02 2 1000035 13 # BR(~mu_L -> ~chi_40 mu-)
4.52088085E-01 2 -1000024 14 # BR(~mu_L -> ~chi_1- nu_mu)
1.56280126E-01 2 -1000037 14 # BR(~mu_L -> ~chi_2- nu_mu)
#
# PDG Width
DECAY 2000013 2.39617494E+01 # smuon_R decays
# BR NDA ID1 ID2
3.34101896E-04 2 1000022 13 # BR(~mu_R -> ~chi_10 mu-)
6.63412986E-04 2 1000023 13 # BR(~mu_R -> ~chi_20 mu-)
4.34599243E-03 2 1000025 13 # BR(~mu_R -> ~chi_30 mu-)
9.94656493E-01 2 1000035 13 # BR(~mu_R -> ~chi_40 mu-)
0.00000000E+00 2 -1000024 14 # BR(~mu_R -> ~chi_1- nu_mu)
0.00000000E+00 2 -1000037 14 # BR(~mu_R -> ~chi_2- nu_mu)
#
# PDG Width
DECAY 1000015 4.69738521E+01 # stau_1 decays
# BR NDA ID1 ID2
2.05352325E-01 2 1000022 15 # BR(~tau_1 -> ~chi_10 tau-)
4.34897838E-03 2 1000023 15 # BR(~tau_1 -> ~chi_20 tau-)
3.08606481E-02 2 1000025 15 # BR(~tau_1 -> ~chi_30 tau-)
3.21871172E-01 2 1000035 15 # BR(~tau_1 -> ~chi_40 tau-)
3.80825968E-01 2 -1000024 16 # BR(~tau_1 -> ~chi_1- nu_tau)
5.67409083E-02 2 -1000037 16 # BR(~tau_1 -> ~chi_2- nu_tau)
0.00000000E+00 2 1000016 -37 # BR(~tau_1 -> ~nu_tauL H-)
0.00000000E+00 2 1000016 -24 # BR(~tau_1 -> ~nu_tauL W-)
#
# PDG Width
DECAY 2000015 4.88023295E+01 # stau_2 decays
# BR NDA ID1 ID2
1.47116437E-01 2 1000022 15 # BR(~tau_2 -> ~chi_10 tau-)
2.03983162E-02 2 1000023 15 # BR(~tau_2 -> ~chi_20 tau-)
7.91921404E-02 2 1000025 15 # BR(~tau_2 -> ~chi_30 tau-)
2.96804297E-01 2 1000035 15 # BR(~tau_2 -> ~chi_40 tau-)
2.75327849E-01 2 -1000024 16 # BR(~tau_2 -> ~chi_1- nu_tau)
1.81160961E-01 2 -1000037 16 # BR(~tau_2 -> ~chi_2- nu_tau)
0.00000000E+00 2 1000016 -37 # BR(~tau_2 -> ~nu_tauL H-)
0.00000000E+00 2 1000016 -24 # BR(~tau_2 -> ~nu_tauL W-)
0.00000000E+00 2 1000015 25 # BR(~tau_2 -> ~tau_1 h)
0.00000000E+00 2 1000015 35 # BR(~tau_2 -> ~tau_1 H)
0.00000000E+00 2 1000015 36 # BR(~tau_2 -> ~tau_1 A)
0.00000000E+00 2 1000015 23 # BR(~tau_2 -> ~tau_1 Z)
#
# PDG Width
DECAY 1000012 6.87167398E+01 # snu_eL decays
# BR NDA ID1 ID2
2.51146689E-01 2 1000022 12 # BR(~nu_eL -> ~chi_10 nu_e)
4.47870424E-03 2 1000023 12 # BR(~nu_eL -> ~chi_20 nu_e)
4.61565016E-02 2 1000025 12 # BR(~nu_eL -> ~chi_30 nu_e)
8.94970640E-02 2 1000035 12 # BR(~nu_eL -> ~chi_40 nu_e)
5.48872967E-01 2 1000024 11 # BR(~nu_eL -> ~chi_1+ e-)
5.98480741E-02 2 1000037 11 # BR(~nu_eL -> ~chi_2+ e-)
#
# PDG Width
DECAY 1000014 6.87167398E+01 # snu_muL decays
# BR NDA ID1 ID2
2.51146689E-01 2 1000022 14 # BR(~nu_muL -> ~chi_10 nu_mu)
4.47870424E-03 2 1000023 14 # BR(~nu_muL -> ~chi_20 nu_mu)
4.61565016E-02 2 1000025 14 # BR(~nu_muL -> ~chi_30 nu_mu)
8.94970640E-02 2 1000035 14 # BR(~nu_muL -> ~chi_40 nu_mu)
5.48872967E-01 2 1000024 13 # BR(~nu_muL -> ~chi_1+ mu-)
5.98480741E-02 2 1000037 13 # BR(~nu_muL -> ~chi_2+ mu-)
#
# PDG Width
DECAY 1000016 6.97562854E+01 # snu_tauL decays
# BR NDA ID1 ID2
2.47403966E-01 2 1000022 16 # BR(~nu_tauL -> ~chi_10 nu_tau)
4.41196019E-03 2 1000023 16 # BR(~nu_tauL -> ~chi_20 nu_tau)
4.54686526E-02 2 1000025 16 # BR(~nu_tauL -> ~chi_30 nu_tau)
8.81633307E-02 2 1000035 16 # BR(~nu_tauL -> ~chi_40 nu_tau)
5.44555787E-01 2 1000024 15 # BR(~nu_tauL -> ~chi_1+ tau-)
6.99963030E-02 2 1000037 15 # BR(~nu_tauL -> ~chi_2+ tau-)
0.00000000E+00 2 -1000015 -37 # BR(~nu_tauL -> ~tau_1+ H-)
0.00000000E+00 2 -2000015 -37 # BR(~nu_tauL -> ~tau_2+ H-)
0.00000000E+00 2 -1000015 -24 # BR(~nu_tauL -> ~tau_1+ W-)
0.00000000E+00 2 -2000015 -24 # BR(~nu_tauL -> ~tau_2+ W-)
#
# PDG Width
DECAY 1000024 1.90361062E-12 # chargino1+ decays
# BR NDA ID1 ID2 ID3
3.74999987E-01 3 1000022 2 -1 # BR(~chi_1+ -> ~chi_10 u db)
0.00000000E+00 3 1000023 2 -1 # BR(~chi_1+ -> ~chi_20 u db)
0.00000000E+00 3 1000025 2 -1 # BR(~chi_1+ -> ~chi_30 u db)
0.00000000E+00 3 1000035 2 -1 # BR(~chi_1+ -> ~chi_40 u db)
3.74999987E-01 3 1000022 4 -3 # BR(~chi_1+ -> ~chi_10 c sb)
0.00000000E+00 3 1000023 4 -3 # BR(~chi_1+ -> ~chi_20 c sb)
0.00000000E+00 3 1000025 4 -3 # BR(~chi_1+ -> ~chi_30 c sb)
0.00000000E+00 3 1000035 4 -3 # BR(~chi_1+ -> ~chi_40 c sb)
0.00000000E+00 3 1000022 6 -5 # BR(~chi_1+ -> ~chi_10 t bb)
0.00000000E+00 3 1000023 6 -5 # BR(~chi_1+ -> ~chi_20 t bb)
0.00000000E+00 3 1000025 6 -5 # BR(~chi_1+ -> ~chi_30 t bb)
0.00000000E+00 3 1000035 6 -5 # BR(~chi_1+ -> ~chi_40 t bb)
1.25000013E-01 3 1000022 -11 12 # BR(~chi_1+ -> ~chi_10 e+ nu_e)
0.00000000E+00 3 1000023 -11 12 # BR(~chi_1+ -> ~chi_20 e+ nu_e)
0.00000000E+00 3 1000025 -11 12 # BR(~chi_1+ -> ~chi_30 e+ nu_e)
0.00000000E+00 3 1000035 -11 12 # BR(~chi_1+ -> ~chi_40 e+ nu_e)
1.25000013E-01 3 1000022 -13 14 # BR(~chi_1+ -> ~chi_10 mu+ nu_mu)
0.00000000E+00 3 1000023 -13 14 # BR(~chi_1+ -> ~chi_20 mu+ nu_mu)
0.00000000E+00 3 1000025 -13 14 # BR(~chi_1+ -> ~chi_30 mu+ nu_mu)
0.00000000E+00 3 1000035 -13 14 # BR(~chi_1+ -> ~chi_40 mu+ nu_mu)
0.00000000E+00 3 1000022 -15 16 # BR(~chi_1+ -> ~chi_10 tau+ nu_tau)
0.00000000E+00 3 1000023 -15 16 # BR(~chi_1+ -> ~chi_20 tau+ nu_tau)
0.00000000E+00 3 1000025 -15 16 # BR(~chi_1+ -> ~chi_30 tau+ nu_tau)
0.00000000E+00 3 1000035 -15 16 # BR(~chi_1+ -> ~chi_40 tau+ nu_tau)
0.00000000E+00 3 1000021 2 -1 # BR(~chi_1+ -> ~g u db)
0.00000000E+00 3 1000021 4 -3 # BR(~chi_1+ -> ~g c sb)
0.00000000E+00 3 1000021 6 -5 # BR(~chi_1+ -> ~g t bb)
#
# PDG Width
DECAY 1000037 1.13560661E+00 # chargino2+ decays
# BR NDA ID1 ID2
0.00000000E+00 2 1000002 -1 # BR(~chi_2+ -> ~u_L db)
0.00000000E+00 2 2000002 -1 # BR(~chi_2+ -> ~u_R db)
0.00000000E+00 2 -1000001 2 # BR(~chi_2+ -> ~d_L* u )
0.00000000E+00 2 -2000001 2 # BR(~chi_2+ -> ~d_R* u )
0.00000000E+00 2 1000004 -3 # BR(~chi_2+ -> ~c_L sb)
0.00000000E+00 2 2000004 -3 # BR(~chi_2+ -> ~c_R sb)
0.00000000E+00 2 -1000003 4 # BR(~chi_2+ -> ~s_L* c )
0.00000000E+00 2 -2000003 4 # BR(~chi_2+ -> ~s_R* c )
0.00000000E+00 2 1000006 -5 # BR(~chi_2+ -> ~t_1 bb)
0.00000000E+00 2 2000006 -5 # BR(~chi_2+ -> ~t_2 bb)
0.00000000E+00 2 -1000005 6 # BR(~chi_2+ -> ~b_1* t )
0.00000000E+00 2 -2000005 6 # BR(~chi_2+ -> ~b_2* t )
0.00000000E+00 2 1000012 -11 # BR(~chi_2+ -> ~nu_eL e+ )
0.00000000E+00 2 1000014 -13 # BR(~chi_2+ -> ~nu_muL mu+ )
0.00000000E+00 2 1000016 -15 # BR(~chi_2+ -> ~nu_tau1 tau+)
0.00000000E+00 2 -1000011 12 # BR(~chi_2+ -> ~e_L+ nu_e)
0.00000000E+00 2 -2000011 12 # BR(~chi_2+ -> ~e_R+ nu_e)
0.00000000E+00 2 -1000013 14 # BR(~chi_2+ -> ~mu_L+ nu_mu)
0.00000000E+00 2 -2000013 14 # BR(~chi_2+ -> ~mu_R+ nu_mu)
0.00000000E+00 2 -1000015 16 # BR(~chi_2+ -> ~tau_1+ nu_tau)
0.00000000E+00 2 -2000015 16 # BR(~chi_2+ -> ~tau_2+ nu_tau)
3.82156498E-01 2 1000024 23 # BR(~chi_2+ -> ~chi_1+ Z )
4.41117463E-01 2 1000022 24 # BR(~chi_2+ -> ~chi_10 W+)
0.00000000E+00 2 1000023 24 # BR(~chi_2+ -> ~chi_20 W+)
0.00000000E+00 2 1000025 24 # BR(~chi_2+ -> ~chi_30 W+)
0.00000000E+00 2 1000035 24 # BR(~chi_2+ -> ~chi_40 W+)
1.76726039E-01 2 1000024 25 # BR(~chi_2+ -> ~chi_1+ h )
0.00000000E+00 2 1000024 35 # BR(~chi_2+ -> ~chi_1+ H )
0.00000000E+00 2 1000024 36 # BR(~chi_2+ -> ~chi_1+ A )
0.00000000E+00 2 1000022 37 # BR(~chi_2+ -> ~chi_10 H+)
0.00000000E+00 2 1000023 37 # BR(~chi_2+ -> ~chi_20 H+)
0.00000000E+00 2 1000025 37 # BR(~chi_2+ -> ~chi_30 H+)
0.00000000E+00 2 1000035 37 # BR(~chi_2+ -> ~chi_40 H+)
#
# PDG Width
DECAY 1000022 0.00000000E+00 # neutralino1 decays
#
# PDG Width
DECAY 1000023 9.53021411E-01 # neutralino2 decays
# BR NDA ID1 ID2
2.66092935E-01 2 1000022 23 # BR(~chi_20 -> ~chi_10 Z )
3.64763676E-01 2 1000024 -24 # BR(~chi_20 -> ~chi_1+ W-)
3.64763676E-01 2 -1000024 24 # BR(~chi_20 -> ~chi_1- W+)
0.00000000E+00 2 1000037 -24 # BR(~chi_20 -> ~chi_2+ W-)
0.00000000E+00 2 -1000037 24 # BR(~chi_20 -> ~chi_2- W+)
4.37971242E-03 2 1000022 25 # BR(~chi_20 -> ~chi_10 h )
0.00000000E+00 2 1000022 35 # BR(~chi_20 -> ~chi_10 H )
0.00000000E+00 2 1000022 36 # BR(~chi_20 -> ~chi_10 A )
0.00000000E+00 2 1000024 -37 # BR(~chi_20 -> ~chi_1+ H-)
0.00000000E+00 2 -1000024 37 # BR(~chi_20 -> ~chi_1- H+)
0.00000000E+00 2 1000037 -37 # BR(~chi_20 -> ~chi_2+ H-)
0.00000000E+00 2 -1000037 37 # BR(~chi_20 -> ~chi_2- H+)
0.00000000E+00 2 1000002 -2 # BR(~chi_20 -> ~u_L ub)
0.00000000E+00 2 -1000002 2 # BR(~chi_20 -> ~u_L* u )
0.00000000E+00 2 2000002 -2 # BR(~chi_20 -> ~u_R ub)
0.00000000E+00 2 -2000002 2 # BR(~chi_20 -> ~u_R* u )
0.00000000E+00 2 1000001 -1 # BR(~chi_20 -> ~d_L db)
0.00000000E+00 2 -1000001 1 # BR(~chi_20 -> ~d_L* d )
0.00000000E+00 2 2000001 -1 # BR(~chi_20 -> ~d_R db)
0.00000000E+00 2 -2000001 1 # BR(~chi_20 -> ~d_R* d )
0.00000000E+00 2 1000004 -4 # BR(~chi_20 -> ~c_L cb)
0.00000000E+00 2 -1000004 4 # BR(~chi_20 -> ~c_L* c )
0.00000000E+00 2 2000004 -4 # BR(~chi_20 -> ~c_R cb)
0.00000000E+00 2 -2000004 4 # BR(~chi_20 -> ~c_R* c )
0.00000000E+00 2 1000003 -3 # BR(~chi_20 -> ~s_L sb)
0.00000000E+00 2 -1000003 3 # BR(~chi_20 -> ~s_L* s )
0.00000000E+00 2 2000003 -3 # BR(~chi_20 -> ~s_R sb)
0.00000000E+00 2 -2000003 3 # BR(~chi_20 -> ~s_R* s )
0.00000000E+00 2 1000006 -6 # BR(~chi_20 -> ~t_1 tb)
0.00000000E+00 2 -1000006 6 # BR(~chi_20 -> ~t_1* t )
0.00000000E+00 2 2000006 -6 # BR(~chi_20 -> ~t_2 tb)
0.00000000E+00 2 -2000006 6 # BR(~chi_20 -> ~t_2* t )
0.00000000E+00 2 1000005 -5 # BR(~chi_20 -> ~b_1 bb)
0.00000000E+00 2 -1000005 5 # BR(~chi_20 -> ~b_1* b )
0.00000000E+00 2 2000005 -5 # BR(~chi_20 -> ~b_2 bb)
0.00000000E+00 2 -2000005 5 # BR(~chi_20 -> ~b_2* b )
0.00000000E+00 2 1000011 -11 # BR(~chi_20 -> ~e_L- e+)
0.00000000E+00 2 -1000011 11 # BR(~chi_20 -> ~e_L+ e-)
0.00000000E+00 2 2000011 -11 # BR(~chi_20 -> ~e_R- e+)
0.00000000E+00 2 -2000011 11 # BR(~chi_20 -> ~e_R+ e-)
0.00000000E+00 2 1000013 -13 # BR(~chi_20 -> ~mu_L- mu+)
0.00000000E+00 2 -1000013 13 # BR(~chi_20 -> ~mu_L+ mu-)
0.00000000E+00 2 2000013 -13 # BR(~chi_20 -> ~mu_R- mu+)
0.00000000E+00 2 -2000013 13 # BR(~chi_20 -> ~mu_R+ mu-)
0.00000000E+00 2 1000015 -15 # BR(~chi_20 -> ~tau_1- tau+)
0.00000000E+00 2 -1000015 15 # BR(~chi_20 -> ~tau_1+ tau-)
0.00000000E+00 2 2000015 -15 # BR(~chi_20 -> ~tau_2- tau+)
0.00000000E+00 2 -2000015 15 # BR(~chi_20 -> ~tau_2+ tau-)
0.00000000E+00 2 1000012 -12 # BR(~chi_20 -> ~nu_eL nu_eb)
0.00000000E+00 2 -1000012 12 # BR(~chi_20 -> ~nu_eL* nu_e )
0.00000000E+00 2 1000014 -14 # BR(~chi_20 -> ~nu_muL nu_mub)
0.00000000E+00 2 -1000014 14 # BR(~chi_20 -> ~nu_muL* nu_mu )
0.00000000E+00 2 1000016 -16 # BR(~chi_20 -> ~nu_tau1 nu_taub)
0.00000000E+00 2 -1000016 16 # BR(~chi_20 -> ~nu_tau1* nu_tau )
#
# PDG Width
DECAY 1000025 1.33390264E+00 # neutralino3 decays
# BR NDA ID1 ID2
2.68811545E-02 2 1000022 23 # BR(~chi_30 -> ~chi_10 Z )
0.00000000E+00 2 1000023 23 # BR(~chi_30 -> ~chi_20 Z )
4.11298928E-01 2 1000024 -24 # BR(~chi_30 -> ~chi_1+ W-)
4.11298928E-01 2 -1000024 24 # BR(~chi_30 -> ~chi_1- W+)
0.00000000E+00 2 1000037 -24 # BR(~chi_30 -> ~chi_2+ W-)
0.00000000E+00 2 -1000037 24 # BR(~chi_30 -> ~chi_2- W+)
1.50520990E-01 2 1000022 25 # BR(~chi_30 -> ~chi_10 h )
0.00000000E+00 2 1000022 35 # BR(~chi_30 -> ~chi_10 H )
0.00000000E+00 2 1000022 36 # BR(~chi_30 -> ~chi_10 A )
0.00000000E+00 2 1000023 25 # BR(~chi_30 -> ~chi_20 h )
0.00000000E+00 2 1000023 35 # BR(~chi_30 -> ~chi_20 H )
0.00000000E+00 2 1000023 36 # BR(~chi_30 -> ~chi_20 A )
0.00000000E+00 2 1000024 -37 # BR(~chi_30 -> ~chi_1+ H-)
0.00000000E+00 2 -1000024 37 # BR(~chi_30 -> ~chi_1- H+)
0.00000000E+00 2 1000037 -37 # BR(~chi_30 -> ~chi_2+ H-)
0.00000000E+00 2 -1000037 37 # BR(~chi_30 -> ~chi_2- H+)
0.00000000E+00 2 1000002 -2 # BR(~chi_30 -> ~u_L ub)
0.00000000E+00 2 -1000002 2 # BR(~chi_30 -> ~u_L* u )
0.00000000E+00 2 2000002 -2 # BR(~chi_30 -> ~u_R ub)
0.00000000E+00 2 -2000002 2 # BR(~chi_30 -> ~u_R* u )
0.00000000E+00 2 1000001 -1 # BR(~chi_30 -> ~d_L db)
0.00000000E+00 2 -1000001 1 # BR(~chi_30 -> ~d_L* d )
0.00000000E+00 2 2000001 -1 # BR(~chi_30 -> ~d_R db)
0.00000000E+00 2 -2000001 1 # BR(~chi_30 -> ~d_R* d )
0.00000000E+00 2 1000004 -4 # BR(~chi_30 -> ~c_L cb)
0.00000000E+00 2 -1000004 4 # BR(~chi_30 -> ~c_L* c )
0.00000000E+00 2 2000004 -4 # BR(~chi_30 -> ~c_R cb)
0.00000000E+00 2 -2000004 4 # BR(~chi_30 -> ~c_R* c )
0.00000000E+00 2 1000003 -3 # BR(~chi_30 -> ~s_L sb)
0.00000000E+00 2 -1000003 3 # BR(~chi_30 -> ~s_L* s )
0.00000000E+00 2 2000003 -3 # BR(~chi_30 -> ~s_R sb)
0.00000000E+00 2 -2000003 3 # BR(~chi_30 -> ~s_R* s )
0.00000000E+00 2 1000006 -6 # BR(~chi_30 -> ~t_1 tb)
0.00000000E+00 2 -1000006 6 # BR(~chi_30 -> ~t_1* t )
0.00000000E+00 2 2000006 -6 # BR(~chi_30 -> ~t_2 tb)
0.00000000E+00 2 -2000006 6 # BR(~chi_30 -> ~t_2* t )
0.00000000E+00 2 1000005 -5 # BR(~chi_30 -> ~b_1 bb)
0.00000000E+00 2 -1000005 5 # BR(~chi_30 -> ~b_1* b )
0.00000000E+00 2 2000005 -5 # BR(~chi_30 -> ~b_2 bb)
0.00000000E+00 2 -2000005 5 # BR(~chi_30 -> ~b_2* b )
0.00000000E+00 2 1000011 -11 # BR(~chi_30 -> ~e_L- e+)
0.00000000E+00 2 -1000011 11 # BR(~chi_30 -> ~e_L+ e-)
0.00000000E+00 2 2000011 -11 # BR(~chi_30 -> ~e_R- e+)
0.00000000E+00 2 -2000011 11 # BR(~chi_30 -> ~e_R+ e-)
0.00000000E+00 2 1000013 -13 # BR(~chi_30 -> ~mu_L- mu+)
0.00000000E+00 2 -1000013 13 # BR(~chi_30 -> ~mu_L+ mu-)
0.00000000E+00 2 2000013 -13 # BR(~chi_30 -> ~mu_R- mu+)
0.00000000E+00 2 -2000013 13 # BR(~chi_30 -> ~mu_R+ mu-)
0.00000000E+00 2 1000015 -15 # BR(~chi_30 -> ~tau_1- tau+)
0.00000000E+00 2 -1000015 15 # BR(~chi_30 -> ~tau_1+ tau-)
0.00000000E+00 2 2000015 -15 # BR(~chi_30 -> ~tau_2- tau+)
0.00000000E+00 2 -2000015 15 # BR(~chi_30 -> ~tau_2+ tau-)
0.00000000E+00 2 1000012 -12 # BR(~chi_30 -> ~nu_eL nu_eb)
0.00000000E+00 2 -1000012 12 # BR(~chi_30 -> ~nu_eL* nu_e )
0.00000000E+00 2 1000014 -14 # BR(~chi_30 -> ~nu_muL nu_mub)
0.00000000E+00 2 -1000014 14 # BR(~chi_30 -> ~nu_muL* nu_mu )
0.00000000E+00 2 1000016 -16 # BR(~chi_30 -> ~nu_tau1 nu_taub)
0.00000000E+00 2 -1000016 16 # BR(~chi_30 -> ~nu_tau1* nu_tau )
#
# PDG Width
DECAY 1000035 2.10506869E+00 # neutralino4 decays
# BR NDA ID1 ID2
1.13304625E-03 2 1000022 23 # BR(~chi_40 -> ~chi_10 Z )
2.15231087E-01 2 1000023 23 # BR(~chi_40 -> ~chi_20 Z )
3.11753415E-02 2 1000025 23 # BR(~chi_40 -> ~chi_30 Z )
6.32061975E-03 2 1000024 -24 # BR(~chi_40 -> ~chi_1+ W-)
6.32061975E-03 2 -1000024 24 # BR(~chi_40 -> ~chi_1- W+)
2.37747010E-01 2 1000037 -24 # BR(~chi_40 -> ~chi_2+ W-)
2.37747010E-01 2 -1000037 24 # BR(~chi_40 -> ~chi_2- W+)
7.87959350E-03 2 1000022 25 # BR(~chi_40 -> ~chi_10 h )
0.00000000E+00 2 1000022 35 # BR(~chi_40 -> ~chi_10 H )
0.00000000E+00 2 1000022 36 # BR(~chi_40 -> ~chi_10 A )
2.95879011E-02 2 1000023 25 # BR(~chi_40 -> ~chi_20 h )
0.00000000E+00 2 1000023 35 # BR(~chi_40 -> ~chi_20 H )
0.00000000E+00 2 1000023 36 # BR(~chi_40 -> ~chi_20 A )
2.26857771E-01 2 1000025 25 # BR(~chi_40 -> ~chi_30 h )
0.00000000E+00 2 1000025 35 # BR(~chi_40 -> ~chi_30 H )
0.00000000E+00 2 1000025 36 # BR(~chi_40 -> ~chi_30 A )
0.00000000E+00 2 1000024 -37 # BR(~chi_40 -> ~chi_1+ H-)
0.00000000E+00 2 -1000024 37 # BR(~chi_40 -> ~chi_1- H+)
0.00000000E+00 2 1000037 -37 # BR(~chi_40 -> ~chi_2+ H-)
0.00000000E+00 2 -1000037 37 # BR(~chi_40 -> ~chi_2- H+)
0.00000000E+00 2 1000002 -2 # BR(~chi_40 -> ~u_L ub)
0.00000000E+00 2 -1000002 2 # BR(~chi_40 -> ~u_L* u )
0.00000000E+00 2 2000002 -2 # BR(~chi_40 -> ~u_R ub)
0.00000000E+00 2 -2000002 2 # BR(~chi_40 -> ~u_R* u )
0.00000000E+00 2 1000001 -1 # BR(~chi_40 -> ~d_L db)
0.00000000E+00 2 -1000001 1 # BR(~chi_40 -> ~d_L* d )
0.00000000E+00 2 2000001 -1 # BR(~chi_40 -> ~d_R db)
0.00000000E+00 2 -2000001 1 # BR(~chi_40 -> ~d_R* d )
0.00000000E+00 2 1000004 -4 # BR(~chi_40 -> ~c_L cb)
0.00000000E+00 2 -1000004 4 # BR(~chi_40 -> ~c_L* c )
0.00000000E+00 2 2000004 -4 # BR(~chi_40 -> ~c_R cb)
0.00000000E+00 2 -2000004 4 # BR(~chi_40 -> ~c_R* c )
0.00000000E+00 2 1000003 -3 # BR(~chi_40 -> ~s_L sb)
0.00000000E+00 2 -1000003 3 # BR(~chi_40 -> ~s_L* s )
0.00000000E+00 2 2000003 -3 # BR(~chi_40 -> ~s_R sb)
0.00000000E+00 2 -2000003 3 # BR(~chi_40 -> ~s_R* s )
0.00000000E+00 2 1000006 -6 # BR(~chi_40 -> ~t_1 tb)
0.00000000E+00 2 -1000006 6 # BR(~chi_40 -> ~t_1* t )
0.00000000E+00 2 2000006 -6 # BR(~chi_40 -> ~t_2 tb)
0.00000000E+00 2 -2000006 6 # BR(~chi_40 -> ~t_2* t )
0.00000000E+00 2 1000005 -5 # BR(~chi_40 -> ~b_1 bb)
0.00000000E+00 2 -1000005 5 # BR(~chi_40 -> ~b_1* b )
0.00000000E+00 2 2000005 -5 # BR(~chi_40 -> ~b_2 bb)
0.00000000E+00 2 -2000005 5 # BR(~chi_40 -> ~b_2* b )
0.00000000E+00 2 1000011 -11 # BR(~chi_40 -> ~e_L- e+)
0.00000000E+00 2 -1000011 11 # BR(~chi_40 -> ~e_L+ e-)
0.00000000E+00 2 2000011 -11 # BR(~chi_40 -> ~e_R- e+)
0.00000000E+00 2 -2000011 11 # BR(~chi_40 -> ~e_R+ e-)
0.00000000E+00 2 1000013 -13 # BR(~chi_40 -> ~mu_L- mu+)
0.00000000E+00 2 -1000013 13 # BR(~chi_40 -> ~mu_L+ mu-)
0.00000000E+00 2 2000013 -13 # BR(~chi_40 -> ~mu_R- mu+)
0.00000000E+00 2 -2000013 13 # BR(~chi_40 -> ~mu_R+ mu-)
0.00000000E+00 2 1000015 -15 # BR(~chi_40 -> ~tau_1- tau+)
0.00000000E+00 2 -1000015 15 # BR(~chi_40 -> ~tau_1+ tau-)
0.00000000E+00 2 2000015 -15 # BR(~chi_40 -> ~tau_2- tau+)
0.00000000E+00 2 -2000015 15 # BR(~chi_40 -> ~tau_2+ tau-)
0.00000000E+00 2 1000012 -12 # BR(~chi_40 -> ~nu_eL nu_eb)
0.00000000E+00 2 -1000012 12 # BR(~chi_40 -> ~nu_eL* nu_e )
0.00000000E+00 2 1000014 -14 # BR(~chi_40 -> ~nu_muL nu_mub)
0.00000000E+00 2 -1000014 14 # BR(~chi_40 -> ~nu_muL* nu_mu )
0.00000000E+00 2 1000016 -16 # BR(~chi_40 -> ~nu_tau1 nu_taub)
0.00000000E+00 2 -1000016 16 # BR(~chi_40 -> ~nu_tau1* nu_tau )
Revision history for this message
|
#10 |
Hi Olivier,
I was trying to generate some process (p p > n1 n1 j j ) using the param_card I described in the last mail. It inturrepted with the following error:
"Command "generate_events " interrupted with error:
InvalidParamCard : parameter mse2: 2 2 is not to identical to parameter 1 1
Please report this bug on https:/
More information is found in '/fdata/
Please attach this file to your report."
Then I noticed that in my slha file the MSE and MSL parameters are as follows:
31 5.00000000E+03 # MSL(1)
32 9.46421000E+01 # MSL(2)
33 5.00000000E+03 # MSL(3)
34 5.00000000E+03 # MSE(1)
35 1.34664000E+02 # MSE(2)
36 5.00000000E+03 # MSE(3)
Correspondingly the mass of the sleptons in the original slha file were as follows:
1000011 5.00018156E+03 # MSf(1,2,1)
2000011 5.00022596E+03 # MSf(2,2,1)
1000013 1.05858712E+02 # MSf(1,2,2)
2000013 1.41282437E+02 # MSf(2,2,2)
1000015 4.99968878E+03 # MSf(1,2,3)
2000015 5.00071932E+03 # MSf(2,2,3)
The MadGraph generated param_card off-course set all the slepton masses to be 5 E+o3.
From physics point of view I think the large difference in selectron and smuon masses facilitates the mu > e gamama decay, which is not desirable.
Do you think that SDecay or MG checks for this constraint and is that why it is setting the mass of selectron and smuon to be the same?
Also if the reason for the MG bug is different from the reason why the param_card mass spectrum is changing from the SLHA maas spectrum, kindly let me know.
Regrads,
Tathagata
Revision history for this message
|
#11 |
Hi,
I have actually no idea of all that MSSM mess. So I think that we will need to wait for Benjamin to get back from holliday.
Concerning your latest question, you can use a more general mssm model which didn't have the restriction on the mass spectrum by importing the model
mssm-full
(much slower as well)
Cheers,
Olivier
Revision history for this message
|
#12 |
Hi Olivier,
Thanks a lot! mssm-full did solve my last question. However calculating any complicated process with this model is a computing challenge indeed.
Regards,
Tathagata
----- Original Message -----
From: "Olivier Mattelaer" <email address hidden>
To: <email address hidden>
Sent: Monday, March 31, 2014 7:07:09 PM
Subject: Re: [Question #245989]: MG param_card generation with warning using FeynHiggs output
Your question #245989 on MadGraph5_aMC@NLO changed:
https:/
Olivier Mattelaer proposed the following answer:
Hi,
I have actually no idea of all that MSSM mess. So I think that we will
need to wait for Benjamin to get back from holliday.
Concerning your latest question, you can use a more general mssm model which didn't have the restriction on the mass spectrum by importing the model
mssm-full
(much slower as well)
Cheers,
Olivier
--
If this answers your question, please go to the following page to let us
know that it is solved:
https:/
If you still need help, you can reply to this email or go to the
following page to enter your feedback:
https:/
You received this question notification because you asked the question.
Revision history for this message
|
#13 |
Then I would suggest to look at
https:/
Cheers,
Olivier
On Apr 3, 2014, at 12:01 AM, Tathagata Ghosh <email address hidden> wrote:
> Question #245989 on MadGraph5_aMC@NLO changed:
> https:/
>
> Status: Answered => Open
>
> Tathagata Ghosh is still having a problem:
> Hi Olivier,
>
> Thanks a lot! mssm-full did solve my last question. However calculating
> any complicated process with this model is a computing challenge indeed.
>
> Regards,
> Tathagata
>
> ----- Original Message -----
> From: "Olivier Mattelaer" <email address hidden>
> To: <email address hidden>
> Sent: Monday, March 31, 2014 7:07:09 PM
> Subject: Re: [Question #245989]: MG param_card generation with warning using FeynHiggs output
>
> Your question #245989 on MadGraph5_aMC@NLO changed:
> https:/
>
> Olivier Mattelaer proposed the following answer:
> Hi,
>
> I have actually no idea of all that MSSM mess. So I think that we will
> need to wait for Benjamin to get back from holliday.
>
> Concerning your latest question, you can use a more general mssm model which didn't have the restriction on the mass spectrum by importing the model
> mssm-full
> (much slower as well)
>
> Cheers,
>
> Olivier
>
> --
> If this answers your question, please go to the following page to let us
> know that it is solved:
> https:/
>
> If you still need help, you can reply to this email or go to the
> following page to enter your feedback:
> https:/
>
> You received this question notification because you asked the question.
>
> You received this question notification because you are an answer
> contact for MadGraph5_aMC@NLO.
Revision history for this message
|
#14 |
Hi all,
I am now back from vacation. I have the impression that using mssm-full (+ possible restrictions) has solved all the problems. Is there anything remaining to be clarified?
Cheers,
Benjamin
Revision history for this message
|
#15 |
Hi Benjamin,
I'm sorry for the late reply. I missed your email. Using mssm-full resolved most of the problem. However it still does not answer 1 question. I started originally with a mass spectrum where selectron and smuon had different masses. smuon had a mass ~250 GeV, while selectron had a mass of ~5 TeV. When I tried to generate the param_card using the online tools, the resulting param_card set smuon mass also to be 5 TeV. In some of earlier posts in this thread I had listed the slha files and the corresponding param_card.
Thanks,
Tathagata
----- Original Message -----
From: "Benjamin Fuks" <email address hidden>
To: <email address hidden>
Sent: Tuesday, April 15, 2014 5:46:27 AM
Subject: Re: [Question #245989]: MG param_card generation with warning using FeynHiggs output
Your question #245989 on MadGraph5_aMC@NLO changed:
https:/
Benjamin Fuks requested more information:
Hi all,
I am now back from vacation. I have the impression that using mssm-full
(+ possible restrictions) has solved all the problems. Is there anything
remaining to be clarified?
Cheers,
Benjamin
--
To answer this request for more information, you can either reply to
this email or enter your reply at the following page:
https:/
You received this question notification because you asked the question.
Revision history for this message
|
#16 |
Hi,
What do you mean by online tools? Are you talking about the translator provided with FeynRules? If yes, could you please provide the version number? Thanks.
Cheers.
Benjamin
Revision history for this message
|
#17 |
Hi Benjamin,
By online tools, I meant the online param_card generator from SLHA files, available in MadGraph website.
- Tathagata
Tatha
-----Original Message-----
From: Benjamin Fuks <email address hidden>
Sender: <email address hidden>
Date: Thu, 24 Apr 2014 06:51:25
To: <email address hidden>
Reply-To: <email address hidden>
Subject: Re: [Question #245989]: MG param_card generation with warning using
FeynHiggs output
Your question #245989 on MadGraph5_aMC@NLO changed:
https:/
Status: Open => Needs information
Benjamin Fuks requested more information:
Hi,
What do you mean by online tools? Are you talking about the translator
provided with FeynRules? If yes, could you please provide the version
number? Thanks.
Cheers.
Benjamin
--
To answer this request for more information, you can either reply to
this email or enter your reply at the following page:
https:/
You received this question notification because you asked the question.
Revision history for this message
|
#18 |
Hi,
Could you try with the FeynRules translator available on:
https:/
It should work with MSSM-full (please use the produced SLHA1-like card)
Concerning the on-line tools you are mentioning, you should rather wait for Olivier's answer.
Cheers,
Benjamin
Can you help with this problem?
Provide an answer of your own, or ask Tathagata Ghosh for more information if necessary.