Fluctuation-Electromagnetic Interaction: Effects of Uniform Motion, Rotation, and Thermal Disequilibrium

TL;DR

This paper reviews recent analytical findings on fluctuation-electromagnetic interactions across various systems, emphasizing effects of motion, rotation, and thermal disequilibrium relevant to physics and nanotechnology.

Contribution

It provides a comprehensive review of analytical results concerning fluctuation-electromagnetic interactions under non-equilibrium conditions.

Findings

Analytical results for particle-vacuum, particle-surface, particle-particle, and surface-surface interactions.

Effects of motion, rotation, and thermal disequilibrium on electromagnetic interactions.

Applications in atomic physics, quantum field theory, and nanotechnology.

Abstract

In this work, we give a consistent review of recent analytical results of reference character related to the fluctuation-electromagnetic interactions in the systems particle-vacuum, particle-surface, particle-particle, and surface-surface. Effects of dynamical, rotational, and thermal disequilibrium are considered. The applications of these results are important in atomic and molecular physics, quantum field theory and nanotechnology.