Many-body heat radiation and heat transfer in the presence of a nonabsorbing background medium

Author(s)

Müller, Boris; Incardone, Roberta; Antezza, Mauro; Emig, Thorsten; Krüger, Matthias

Abstract

Heat radiation and near-field radiative heat transfer can be strongly manipulated by adjusting geometrical shapes, optical properties, or the relative positions of the objects involved. Typically, these objects are considered as embedded in vacuum. By applying the methods of fluctuational electrodynamics, we derive general closed-form expressions for heat radiation and heat transfer in a system of N arbitrary objects embedded in a passive nonabsorbing background medium. Taking into account the principle of reciprocity, we explicitly prove the symmetry and positivity of transfer in any such system. Regarding applications, we find that the heat radiation of a sphere as well as the heat transfer between two parallel plates is strongly enhanced by the presence of a background medium. Regarding near- and far-field transfer through a gas like air, we show that a microscopic model (based on gas particles) and a macroscopic model (using a dielectric contrast) yield identical results. We also compare the radiative transfer through a medium like air and the energy transfer found from kinetic gas theory.

Date issued

2017-02

URI

http://hdl.handle.net/1721.1/107194

Department

MIT Energy Initiative
MultiScale Materials Science for Energy and Environment, Joint MIT-CNRS Laboratory

Journal

Physical Review B

Publisher

American Physical Society

Citation

Müller, Boris et al. “Many-Body Heat Radiation and Heat Transfer in the Presence of a Nonabsorbing Background Medium.” Physical Review B 95.8 (2017): n. pag. © 2017 American Physical Society

Version: Final published version

ISSN

2469-9950

2469-9969