Version 14 (modified by 15 years ago) ( diff ) | ,
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Working Group 3
- Topic 1: Structure of the FeynRules web-based databaseDatabase discussions
- Topic 2: New model implementation and survey of the missing models.
- Topic 3: Application of the Les Houches validation scheme.
Models available in different tools
x = available.
d = derived from more general model.
p = private implementation
c = contruction
w = wish
SM + extensions
SM = Standard Model
B-L = B-L symmetric Z' with heavy Majorana neutrinos
Zp = SM + Z'
2HDM14 = general 2 Higgs doublet model
Gen4 = 4th generation
ExF = Excited fermions
SMAG = Standard Model with anomalous gauge boson couplings
SUSY
cMSSM = constraint MSSM
MSSM124 = general MSSM, with 124 free parameters.
NMSSM = MSSM + 1 (super)singlet
RPVMSSM = MSSM + RPV terms in superpotential and LSoft
DGMSSM = Dirac gauginos (not clear which models aare implemented: pure Dirac, pseudo-Dirac,...)
LRMSSM = left-right symmetric MSSM
CPVMSSM = CP violating MSSM
LQMSSM = MSSM with leptoquarks
E6MSSM = E6 MSSM (overlap with LQMSSM -> S. King)
GRMSSM = MSSM with gravitinos
Extra dimensions
5DUED1 = 5D UED with 1KK layer
5DUED2 = 5D UED with 2KK layer
6DUEDx = 6D UED with xKK layers
ADD = ADD
RS = Randall Sundrum
Lepto quarks
LQC = Complete Lepto quarks
LQS = scalar lepto quarks
Technicolor & Higgsless
MWTC = Minimal walking technicolor
3SM = 3-site model
HLS = Hidden Local symmetry model
4SM = general 4-site model
4SMwDM = 4-site model constrained to have dark matter
Little Higgs
SILH = Strongly interacting little higgs
LHT = Littlest higss model with T-parity
LHTV = LHT + T-parity violation
Unparticles
UP = Unparticles
HV = Hidden Valley
FR | LH | CHm | WO | SH | FA | MG | HW | |
SM | x | x | x | x | x | x | x | x |
B-L | x | x | ||||||
Zp | p | x | ||||||
2HDM14 | x | p | x | |||||
Gen4 | p | |||||||
ExF | c | p | ||||||
SMAG | x | |||||||
cMSSM | xd | xd | xd | x | xd | x | x | |
MSSM124 | x | x | x | x? | x | |||
NMSSM | x | x | x | x | ||||
RPVMSSM | x | x | c | |||||
DGMSSM | x | x | p | |||||
LRMSSM | x | x | ||||||
CPVMSSM | xd | x | xd | |||||
LQMSSM | x | c | ||||||
E6MSSM | p | |||||||
GRMSSM | x | |||||||
5DUED1 | x | x | x | |||||
5DUED2 | x | |||||||
6DUED | c | x | ||||||
ADD | x | 50% | x | |||||
RS | 90% | |||||||
LQC | x | x | ||||||
LQS | x | x | ||||||
MWTC | p | |||||||
3SM | x | x | x | |||||
4SM | 30% | |||||||
4SMwDM | 40% | |||||||
HLS | p | p | ||||||
SILH | x | |||||||
LHT | p | p | ||||||
LHTV | p | |||||||
UP | ||||||||
HV |
Working Plan
We would like to perform a 4 star comparison between FR and LH for the following models:
- First thing is to get agreement between the LH SUSY implementation in CH and all the others as in the big FR paper.
- Randall Sundrum (started at the workshop) : FR and LH implementations will be validated in CalcHEP (3 star) and in WHIZARD (4 star): Priscila, Neil, Sasha, Christian. All model files available. Next step is comparison with MG-stock implementation of RS by Priscila and Qiang in v4. Finally, validation with FR+MG5 will be done.
- Walking Technicolor : FR version to be validated with the LH version in CH. Paper SB, and Francesco Sannino (arXiv:0809.0793 [hep-ph]).
- Little Higgs with T-parity. The LanHEP sources are available by Sasha. Here is the CalcHEP implementation: http://hep.pa.msu.edu/LHT/lht.zip An implementation is also available in WHIZARD.
- Lepto-Quarks : FR version to be validated with the LH version in CH. hep-ph/0502067.To validate this model we need a FR implementation of the Lagrangian in the paper above and its export into, let's say, MG5. Complete version of the CH implementation(including SU(3)xSU(2)xU(1)) is ready and will be available. LeptoQuarks.tgz
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Example of validation tables
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