DYNAMICAL SUPERSYMMETRY
Ashok Das, Marcelo Hott
TL;DR
This paper demonstrates how supersymmetry can dynamically emerge in a simple quantum model due to interactions, relaxing mass equality constraints and offering potential phenomenological implications.
Contribution
It introduces a model where supersymmetry is generated dynamically through interactions, even if absent in the free theory.
Findings
Supersymmetry can be dynamically generated in quantum systems.
Interaction effects can induce supersymmetry without mass degeneracy.
Potential implications for phenomenological models of supersymmetry.
Abstract
We show, in a simple quantum mechanical model, how a theory can become supersymmetric in the presence of interactions even when the free theory is not. This dynamical generation of supersymmetry relaxes the condition on the equality of masses of the superpartners which would be of phenomenological interest.
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Taxonomy
TopicsBlack Holes and Theoretical Physics · Cosmology and Gravitation Theories · Quantum Mechanics and Applications