The fate of supersymmetry in quantum field theories

Risto Raitio

arXiv:2307.13017·hep-ph·April 2, 2024·2 cites

The fate of supersymmetry in quantum field theories

Risto Raitio

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TL;DR

This paper examines the role of supersymmetry in various quantum field theories, highlighting its theoretical importance in topological models and the current lack of experimental evidence in the Standard Model.

Contribution

It provides an analysis of supersymmetry's significance in topological models and discusses the absence of superpartners in the Standard Model.

Findings

01

Topological models favor hidden supersymmetry

02

Standard Model superpartners have not been observed

03

Supersymmetry's role varies across different quantum field theories

Abstract

We analyze the significance of supersymmetry in two topological models and the standard model (SM). We conclude that the two topological field theory models favor hidden supersymmetry. The SM superpartners, instead, have not been found.

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Taxonomy

TopicsBlack Holes and Theoretical Physics · Noncommutative and Quantum Gravity Theories · Topological Materials and Phenomena