Super-Zeeman Embedding Models on N-Supersymmetric World-Lines
High Energy Physics - Theory
2012-08-27 v1
Abstract
We construct a model of an electrically charged magnetic dipole with arbitrary N-extended world-line supersymmetry, which exhibits a supersymmetric Zeeman effect. By including supersymmetric constraint terms, the ambient space of the dipole may be tailored into an algebraic variety, and the supersymmetry broken for almost all parameter values. The so exhibited obstruction to supersymmetry breaking refines the standard one, based on the Witten index alone.
Cite
@article{arxiv.0803.3434,
title = {Super-Zeeman Embedding Models on N-Supersymmetric World-Lines},
author = {C. F. Doran and M. G. Faux and S. J. Gates, and T. Hubsch and K. M. Iga and G. D. Landweber},
journal= {arXiv preprint arXiv:0803.3434},
year = {2012}
}
Comments
13 pages, 4 figures