Foundations of Classical Electrodynamics, Equivalence Principle and Cosmic Interactions: A Short Exposition and an Update

TL;DR

This paper reviews the foundational aspects of electromagnetism, introduces frameworks incorporating quantum and gravitational corrections, and discusses experimental efforts to test these theories, highlighting the robustness of the electromagnetic foundation with some open questions.

Contribution

It presents a unified approach combining PPM and chi-g frameworks to incorporate quantum and gravitational effects into electromagnetism, and reviews experimental constraints and future prospects.

Findings

Electromagnetic foundations are largely solid with some potential pseudoscalar interactions.

Experimental constraints on photon interactions are discussed and ongoing experiments are highlighted.

Theoretical frameworks integrate QED corrections, pseudoscalar interactions, and gravity coupling.

Abstract

We look at the foundations of electromagnetism in this 1st LeCosPA Symposium. For doing this, after some review (constraints on photon mass etc.), we use two approaches. The first one is to formulate a Parametrized Post-Maxwellian (PPM) framework to include QED corrections and a pseudoscalar photon interaction. PPM framework includes lowest corrections to unified electromagnetism-gravity theories based on connection approach. It may also overlap with corrections implemented from generalized uncertainty principle (GUP) when electromagnetism-gravity coupling is considered. We discuss various vacuum birefringence experiments - ongoing and proposed - to measure these parameters. The second approach - the chi-g framework is to look at electromagnetism in gravity and various experiments and observations to determine its empirical foundation. The SME (Standard Model Extension) and SMS (Standard Model Supplement) overlap with the chi-g framework in their photon sector. We found that the foundation is solid with the only exception of a potentially possible pseudoscalar-photon interaction. We discussed its experimental constraints and look forward to more future experiments.