A New Left-Right Symmetry Model
Abstract
We propose a new L-R symmetry model where the L-R symmetry transformation reverses both the L-R chirality and the local quantum number. We add to the model a global quantum number whose value is one for fermions (minus one for anti fermion) and vanishes for bosons. For each standard model (SM) particle, we have the corresponding L-R dual particle whose mass is very large and which should have decayed at the current low energy level. Due to the global quantum number , there is no Majorana neutrino in the model but a Dirac seesaw mechanism can still occur and the usual three active neutrinos oscillation can still be realized. We add two leptoquarks and their L-R duals, for generating the baryon number asymmetry and for facilitating the decay of the L-R dual particles. The decay of the L-R dual particles will produce a large entropy to the SM sector and gives a mechanism for avoiding the big bang nucleosynthesis constraint.
Cite
@article{arxiv.1903.03370,
title = {A New Left-Right Symmetry Model},
author = {Apriadi Salim Adam and Akmal Ferdiyan and Mirza Satriawan},
journal= {arXiv preprint arXiv:1903.03370},
year = {2020}
}
Comments
17 pages, 6 figures, minor modification, one reference is added