Testing R-parity with Geometry
Abstract
We present a complete classification of the vacuum geometries of all renormalizable superpotentials built from the fields of the electroweak sector of the MSSM. In addition to the Severi and affine Calabi-Yau varieties previously found, new vacuum manifolds are identified; we thereby investigate the geometrical implication of theories which display a manifest matter parity (or R-parity) via the distinction between leptonic and Higgs doublets, and of the lepton number assignment of the right-handed neutrino fields. We find that the traditional R-parity assignments of the MSSM more readily accommodate the neutrino see-saw mechanism with non-trivial geometry than those superpotentials that violate R-parity. However there appears to be no geometrical preference for a fundamental Higgs bilinear in the superpotential, with operators that violate lepton number, such as \nu H\bar{H}, generating vacuum moduli spaces equivalent to those with a fundamental bilinear.
Keywords
Cite
@article{arxiv.1512.00854,
title = {Testing R-parity with Geometry},
author = {Yang-Hui He and Vishnu Jejjala and Cyril Matti and Brent D. Nelson},
journal= {arXiv preprint arXiv:1512.00854},
year = {2016}
}
Comments
29 pages, LaTeX