Dirac Gauginos
From Wiki Les Houches 09
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Adam Martin | Adam Martin | ||
- | Tuhin S Roy(tuhin | + | Tuhin S Roy(tuhin.AT.uoregon.edu) |
- | Benjamin Fuks (fuks | + | Benjamin Fuks (fuks.AT.cern.ch) |
- | Patrick Fox (pjfox | + | Patrick Fox (pjfox.AT.fnal.gov) |
Conor Henderson | Conor Henderson | ||
Graham Kribs | Graham Kribs | ||
+ | |||
+ | Siba Prasad Das | ||
+ | |||
+ | Renaud Bruneliere | ||
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== 1.) low mass point, essentially a Diracified version of the SPSXX points. Attempt to match/maximize the rates. Aim for largest differences between Dirac and Majorana gauginos. | == 1.) low mass point, essentially a Diracified version of the SPSXX points. Attempt to match/maximize the rates. Aim for largest differences between Dirac and Majorana gauginos. | ||
- | (Patrick) | + | (Patrick, Benjamin) |
== 2.) high mass points: using unification to reduce the dimension of the parameter space. | == 2.) high mass points: using unification to reduce the dimension of the parameter space. | ||
- | (Patrick, Tuhin) | + | (Patrick, Tuhin, Benjamin) |
* '''Determining Majorana vs. Dirac character of gauginos:''' | * '''Determining Majorana vs. Dirac character of gauginos:''' |
Current revision
DIRAC GAUGINOS:
Please sign your name and email address up to the projects you are interested in.
Adam Martin
Tuhin S Roy(tuhin.AT.uoregon.edu)
Benjamin Fuks (fuks.AT.cern.ch)
Patrick Fox (pjfox.AT.fnal.gov)
Conor Henderson
Graham Kribs
Siba Prasad Das
Renaud Bruneliere
List of topics is below:
- Monte Carlo implementation: cross-check of the current MG/ME and CalcHEP implementations, implementation into FeynRules
(Adam, Tuhin, Claude, Benjamin, Patrick)
- Benchmarks:
== 1.) low mass point, essentially a Diracified version of the SPSXX points. Attempt to match/maximize the rates. Aim for largest differences between Dirac and Majorana gauginos.
(Patrick, Benjamin)
== 2.) high mass points: using unification to reduce the dimension of the parameter space.
(Patrick, Tuhin, Benjamin)
- Determining Majorana vs. Dirac character of gauginos:
Possible techniques/ideas can be found in "0808.2410" and "0811.4445"
- Dirac gauginos and chargino NLSPs: "0807.4936"
(Adam, Tuhin)
- Scalar adjoints (i.e sgluons) "0810.3919"
- Looking at the signal into experiments and implementing benchmark points
(Renaud for ATLAS)
Feel free to add more ideas. Any questions, email "adam.martin@yale.edu" "tuhin@uoregon@yale.edu"