Generalised Non-Linear Electrodynamics: classical picture and effective mass generation

TL;DR

This paper explores a generalized non-linear electrodynamics framework, revealing an effective photon mass, additional degrees of freedom, and ensuring stability, with implications for understanding mass generation mechanisms.

Contribution

It introduces a reformulation of the model highlighting effective mass and analyzes the constraint algebra, showing the emergence of an extra degree of freedom and stability.

Findings

Presence of an effective photon mass

Shift from first-class to second-class constraints

Hamiltonian is bounded from below

Abstract

Starting from a generic Lagrangian, we discuss the number of propagating degrees of freedom in the framework of generalised non-linear electrodynamics when a photon-background split is applied. We start by stating results obtained in a previous paper, before modifying the action to an equivalent form. Within this new formulation, we highlight the presence of an effective mass and consider the mechanical reduction of the model to ensure the positivity of said mass. We then study the constraint algebra of the model and show that we shift from a model with two first-class to two second-class constraints, which implies the propagation of an additional degree of freedom. We also show that the Hamiltonian is bound from below and thus does not suffer from Ostrogradski-type instabilities. We conclude by deriving the propagator for the model, and discussing the potential link between the nature of this additional polarisation and the mechanism behind the effective mass generation in this class of models.