Radiation Reaction in Quantum Vacuum

TL;DR

This paper presents a stabilized model of radiation reaction in quantum vacuum, incorporating photon-photon scatterings, to improve estimations in ultra-intense laser-electron interactions.

Contribution

The paper introduces a new stabilized radiation reaction model in quantum vacuum, updating the charge-to-mass ratio with a 4th order tensor measure.

Findings

Updated Fletcher-Millikan charge-to-mass ratio including radiation effects

Demonstrated the model's ability to describe photon-photon scatterings

Enhanced estimation accuracy for ultra-intense laser-electron interactions

Abstract

From the development of the electron theory by H. A. Lorentz in 1906, many authors have tried to reformulate this model named "radiation reaction". P. A. M. Dirac derived the relativistic-classical electron model in 1938, which is now called the Lorentz-Abraham-Dirac model. But this model has the big difficulty of the run-away solution. Recently, this equation has become important for ultra-intense laser-electron (plasma) interactions. Therefore, it is desirable to stabilize this model of the radiation reaction for estimations. Via my recent research, I found a stabilized model of radiation reaction in quantum vacuum. This leads us to an updated Fletcher-Millikan's charge to mass ratio including radiation, de/dm, derived as the 4th order tensor measure. In this paper, I will discuss the latest update of the model and the ability of the equation of motion with radiation reaction in quantum vacuum via photon-photon scatterings.