Fluctuation electromagnetic interaction between rotating spherical   nanoparticles. 1. Nonrelativistic theory

A. A. Kyasov; G. V. Dedkov

arXiv:1209.4880·cond-mat.mes-hall·September 24, 2012

Fluctuation electromagnetic interaction between rotating spherical nanoparticles. 1. Nonrelativistic theory

A. A. Kyasov, G. V. Dedkov

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TL;DR

This paper develops a nonrelativistic theoretical framework to calculate electromagnetic interactions, including attraction, friction torque, and heat exchange, between two rotating spherical nanoparticles at a distance.

Contribution

It provides the first nonrelativistic calculations of electromagnetic forces and heat exchange between rotating nanoparticles.

Findings

01

Calculated attraction force between nanoparticles.

02

Determined friction torque due to rotation.

03

Estimated radiation heat exchange rate.

Abstract

For the first time, using nonrelativistic approach we have calculated the attraction force, friction torque and the rate of radiation heat exchange in the system of two sprerical rotating particles located at a distance between one another.

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Taxonomy

TopicsAdvanced Thermodynamics and Statistical Mechanics · Thermal Radiation and Cooling Technologies · Quantum Electrodynamics and Casimir Effect