# Leibniz-Yang-Mills Gauge Theories and the 2-Higgs Mechanism

**Authors:** Thomas Strobl

arXiv: 1903.07365 · 2019-06-26

## TL;DR

This paper introduces a gauge theory based on quadratic Leibniz algebras, demonstrating its equivalence to Yang-Mills theory with massive 2-form fields, thereby proposing a higher Higgs mechanism for gauge fields.

## Contribution

It develops a gauge theory framework from quadratic Leibniz algebras and establishes its classical and quantum equivalence to Yang-Mills theory with massive 2-forms, revealing a novel higher Higgs mechanism.

## Key findings

- Equivalence between Leibniz-Yang-Mills and standard Yang-Mills with massive 2-forms
- Introduction of a higher Higgs mechanism for 2-form gauge fields
- Framework for gauge theories based on quadratic Leibniz algebras

## Abstract

A quadratic Leibniz algebra $(\mathbb{V},[ \cdot, \cdot ],\kappa)$ gives rise to a canonical Yang-Mills type functional $S$ over every space-time manifold. The gauge fields consist of 1-forms $A$ taking values in $\mathbb{V}$ and 2-forms $B$ with values in the subspace $\mathbb{W} \subset \mathbb{V}$ generated by the symmetric part of the bracket. If the Leibniz bracket is anti-symmetric, the quadratic Leibniz algebra reduces to a quadratic Lie algebra, $B\equiv 0$, and $S$ becomes identical to the usual Yang-Mills action functional. We describe this gauge theory for a general quadratic Leibniz algebra. We then prove its (classical and quantum) equivalence to a Yang-Mills theory for the Lie algebra ${\mathfrak{g}} = \mathbb{V}/\mathbb{W}$ to which one couples massive 2-form fields living in a ${\mathfrak{g}}$-representation. Since in the original formulation the B-fields have their own gauge symmetry, this equivalence can be used as an elegant mass-generating mechanism for 2-form gauge fields, thus providing a 'higher Higgs mechanism' for those fields.

## Full text

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## References

32 references — full list in the complete paper: https://tomesphere.com/paper/1903.07365/full.md

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Source: https://tomesphere.com/paper/1903.07365