Vacuum attraction, friction and heating of nanoparticles moving nearby a heated surface

TL;DR

This paper reviews the fluctuation electromagnetic theory explaining how neutral nanoparticles experience attraction, friction, and heating when moving near a heated surface, based on an exact relativistic solution in the dipole approximation.

Contribution

It provides a comprehensive review of the fluctuation electromagnetic theory for nanoparticle-surface interactions, including an exact relativistic solution in the dipole approximation.

Findings

Describes electromagnetic attraction, friction, and heating effects.

Provides an exact relativistic solution for sphere-plane configuration.

Focuses on nonmagnetic nanoparticles near heated surfaces.

Abstract

We review the fluctuation electromagnetic theory of attraction, friction and heating of neutral nonmagnetic nanoparticles moving with constant velocity in close vicinity to the solid surface. The theory is based on an exact solution of the relativistic problem of the fluctuation electromagnetic interaction in configuration sphere -plane in the dipole approximation.