Electromagnetic radiation at extreme angular velocity
Matteo Buzzegoli, Kirill Tuchin
TL;DR
This paper models electromagnetic radiation from a rapidly rotating system at the light-cylinder, using a quantum field approach on a rotating cylindrical surface to analyze photon emission spectra.
Contribution
It introduces a quantum field model on a rotating cylindrical surface to study electromagnetic radiation at extreme angular velocities, focusing on photon spectra from quark-gluon plasma.
Findings
Photon spectrum computed for the rotating system.
Model captures effects of extreme angular velocity on radiation.
Provides insights into electromagnetic emissions at high rotational speeds.
Abstract
We consider a system rotating at extremely high angular velocity, so that its matter is found mostly at the light-cylinder. We posit that it can be described by quantum fields confined to the two-dimensional cylindrical surface rotating about its symmetry axis. We apply this model to study the electromagnetic radiation. In particular, we compute the photon spectrum emitted by the quark-gluon plasma.
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Taxonomy
TopicsQuantum and Classical Electrodynamics · Relativity and Gravitational Theory · Cosmology and Gravitation Theories