| Version 10 (modified by , 15 years ago) ( diff ) |
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Working Group 3
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
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)
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 | |||||||
| 2HDM14 | x | p | x | |||||
| Gen4 | p | |||||||
| ExF | c | p | ||||||
| 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 | |||||||
| 5DUED1 | x | x | ||||||
| 5DUED2 | x | |||||||
| 6DUED | c | x | ||||||
| ADD | x | 50% | ||||||
| RS | 90% | |||||||
| LQC | x | x | ||||||
| LQS | x | x | ||||||
| MWTC | p | |||||||
| 3SM | 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) : Priscila, Neil, Sasha. 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 so to get to 4 stars.
- 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
- 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
Attachments (2)
- LeptoQuarks.tgz (9.5 KB ) - added by 15 years ago.
-
ww600new.jpg
(324.0 KB
) - added by 15 years ago.
Example of validation tables
Download all attachments as: .zip
