Version 47 (modified by 9 years ago) ( diff ) | ,
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Alternative Left-Right Symmetric Model
Model
Alternative Left-Right Symmetric Model (ALRM)
Author
Mustafa Ashry
- Center for Fundamental Physics, Zewail City of Science and Technology, Sheikh Zayed, 12588 Giza, Egypt
- Department of Mathematics, Faculty of Science, Cairo University, 12613 Giza, Egypt
Emails
mustafa@…
mashry@…
Model Description
As any other left-right symmetric model, ALRM is a QFT gauged by SU(2)_L×SU(2)_R×U(1)_B-L. B and L being the baryon and lepton numbers. An extra discrete S symmetry is imposed to differentiate between both the left and right fields and interactions of the Higgs sector.
As in the SM, left fermions compose SU(2)_L doublets. Right charged leptons are accommodated in SU(2)_R doublets with corresponding extra particles (scotinos) and right up-quarks in SU(2)_R doublets with corresponding extra exotic down-type quarks. Right neutrinos and down-quarks are SU(2)_L,R singlets. The Higgs sector composes of an SU(2)_L-doublet, an SU(2)_R-doublet and a bidoublet. The physical gauge sector of the model contains the electroweak gauge bosons (photon, W and Z bosons) and two extra gauge bosons (W' and Z') correspond to the SU(2)_R group.
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References
- M. Ashry and S. Khalil, Phenomenological aspects of a TeV-scale alternative left-right model, Physical Review D 91, 015009 (2015) (arXiv:1310.3315) (https://inspirehep.net/record/1258411).
- Mustafa Ashry, TeV-scale left-right symmetric model with minimal Higgs sector, Master Thesis, Cairo University, Cairo (2015)(http://scholar.cu.edu.eg/sites/default/files/science_math_mashry/files/mashry_msc.thesis.pdf).
Warnings
For the CalcHEP files, it's advised to use those uploaded to the page (https://feynrules.irmp.ucl.ac.be/attachment/wiki/ALRM/ALRM_CalcHEP.rar) and not to produce them from the model files. In the later case, you will be faced by a conflict between the string size produced by FeynRules and this allowed by CalcHEP. In fact, those CalcHEP files uploaded to the page are general and there is no need to produce them again, unless you have modified the model itself and want to generate the new ones.
Acknowledgements
Thanks to W. Abdallah; being revised the CalcHEP files and fixed the string size errors manually. The author would like to thank W. Abdallah, the late colleague A. Elsayed and A. Moursy for their helpful hints and useful discussions. Thanks to Prof. M. E. Peskin and Dr. B. Fucks for replying the questions and for their guiding notes.
Attachments (11)
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ppaa_alrm_sm_reco.png
(11.3 KB
) - added by 5 years ago.
Proton-Proton collision at the LHC Diphotons including Higgs in the ALRM and the SM at the reconstruction/detector level
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ggaa_alrm_sm_reco.png
(12.7 KB
) - added by 5 years ago.
Gluon-Gluon fusion into Diphotons via Higgs in the ALRM and the SM at the reconstruction/detector level
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ALRM_LO.fr
(71.3 KB
) - added by 8 months ago.
Model File
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ALRM_LO_UFO.tar.xz
(186.5 KB
) - added by 8 months ago.
UFO Files
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ALRM_LO_TeX.tar.xz
(1.8 MB
) - added by 8 months ago.
TeX Files
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ALRM_LO_CH.tar.xz
(117.6 KB
) - added by 8 months ago.
CALCHEP Files
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ALRM_LO_FA.tar.xz
(38.1 KB
) - added by 8 months ago.
FEYNARTS Files
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ALRM_LO_SH.tar.xz
(26.5 KB
) - added by 8 months ago.
SHERPA Files
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ALRM_LO_MD.tar.xz
(18.8 KB
) - added by 8 months ago.
ASperge Files
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ALRM_LO_WO.tar.xz
(62.3 KB
) - added by 8 months ago.
WHIZARD Files
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ALRM_LO.tar.xz
(6.3 MB
) - added by 8 months ago.
This file contains the model file and an example Mathematica® notebook that loads, checks the model, calculates Feynman rules and produces different outputs (UFO, CalcHEP,...). It contains also pdf references files for the model.