Radiative heat transfer in nonlinear Kerr media

Author(s)

Khandekar, Chinmay; Pick, Adi; Johnson, Steven G.; Rodriguez, Alejandro W.

Abstract

We obtain a fluctuation-dissipation theorem describing thermal electromagnetic fluctuation effects in nonlinear media that we exploit in conjunction with a stochastic Langevin framework to study thermal radiation from Kerr (χ[superscript (3)]) photonic cavities coupled to external environments at and out of equilibrium. We show that, in addition to thermal broadening due to two-photon absorption, the emissivity of such cavities can exhibit asymmetric, non-Lorentzian line shapes due to self-phase modulation. When the local temperature of the cavity is larger than that of the external bath, we find that the heat transfer into the bath exceeds the radiation from a corresponding linear blackbody at the same local temperature. We predict that these temperature-tunable thermal processes can be observed in practical, nanophotonic cavities operating at relatively small temperatures.

Date issued

2015-03

URI

http://hdl.handle.net/1721.1/95909

Department

Massachusetts Institute of Technology. Department of Mathematics

Journal

Physical Review B

Publisher

American Physical Society

Citation

Khandekar, Chinmay, Adi Pick, Steven G. Johnson, and Alejandro W. Rodriguez. "Radiative heat transfer in nonlinear Kerr media." Phys. Rev. B 91, 115406 (March 2015). © 2015 American Physical Society

Version: Final published version

ISSN

1098-0121

1550-235X