Fluctuation electromagnetic conservative -dissipative interaction and heating of two closely spaced parallel plates in relative motion. Nonrelativistic approximation.1

TL;DR

This paper calculates the electromagnetic forces and heating rates between two closely spaced parallel plates in relative motion using a nonrelativistic approximation, highlighting key aspects of fluctuation electrodynamics in this configuration.

Contribution

It provides the first calculation of heating and electromagnetic forces in a nonrelativistic approximation for two moving plates, advancing understanding of fluctuation electrodynamics in this setup.

Findings

Calculated heating rate between plates.

Determined conservative and dissipative electromagnetic forces.

Provided insights for relativistic fluctuation electrodynamics problems.

Abstract

For the first time, we calculate the heating rate, attractive conservative and tangential dissipative fluctuation electromagnetic forces felt by a thick plate moving parallel to a closely spaced another plate in rest using a nonrelativistic approximation of fluctuation electrodynamics. These results can be considered as the high lights when solving general relativistic problem of the fluctuation electromagnetic interaction in configuration of two perfectly smooth parallel thick plates in relative motion.