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Controlling radiative heat flow through cavity electrodynamics (2403.00851v1)

Published 29 Feb 2024 in physics.optics, cond-mat.str-el, and quant-ph

Abstract: Cavity electrodynamics is emerging as a promising tool to control chemical processes and quantum material properties. In this work we develop a formalism to describe the cavity mediated energy exchange between a material and its electromagnetic environment. We show that coplanar cavities can significantly affect the heat load on the sample if the cavity resonance lies within the frequency region where free-space radiative heat dominates, typically the mid-IR at ambient temperature, while spectral filtering is necessary for having an effect with lower frequency cavities.

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