The Spin Contribution to the Synchrotron Light

TL;DR

This paper proposes a method to detect the spin contribution to synchrotron radiation by comparing emissions from spin-less particles and particles with magnetic moments, using helium nuclei as a test case.

Contribution

It introduces a novel approach to isolate the spin contribution in synchrotron light by experimental comparison, focusing on helium nuclei as a stable spin-less charged particle.

Findings

Helium nuclei can serve as a reference for spin-less charge radiation.

The comparison method could reveal the spin contribution in synchrotron light.

Potential to improve understanding of spin effects in electromagnetic radiation.

Abstract

In order to detect the spin contribution to the synchrotron radiation, the so-called spin light, we propose to compare the characteristics of the radiation emitted by a spin-less charged particle with the huge crop of data regarding the synchrotron light, i.e. the radiation emitted by a particle endowed with a magnetic moment. Helium nuclei are proposed as the lightest stable spin-less charged particles available.