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Dynamic modulation of thermal emission—A Tutorial

Michela F. Picardi, Kartika N. Nimje, Georgia T. Papadakis

2023Journal of Applied Physics40 citationsDOIOpen Access PDF

Abstract

Thermal emission is typically associated with a blackbody at a temperature above absolute zero, which exchanges energy with its environment in the form of radiation. Blackbody thermal emission is largely incoherent both spatially and temporally. Using principles in nanophotonics, thermal emission with characteristics that differ considerably from those of a blackbody has been demonstrated. In particular, by leveraging intrinsic properties of emerging materials or via nanostructuring at the wavelength or sub-wavelength scale, one can gain control over the directionality, temporal coherence, and other more exotic properties of thermal radiation. Typically, however, these are fixed at the time of fabrication. Gaining dynamic control of thermal emission requires exploiting external mechanisms that actively modulate radiative properties. Numerous applications can benefit from such thermal emission control, for example, in solar energy harvesting, thermo-photovoltaic energy conversion, radiative cooling, sensing, spectroscopy, imaging, and thermal camouflage. In this Tutorial, we introduce thermal emission in two domains: the far-field and the near-field, and we outline experimental approaches for probing thermal radiation in both ranges. We discuss ways for tailoring the spatial and temporal coherence of thermal emission and present available mechanisms to actively tune these characteristics.

Topics & Concepts

Black-body radiationThermal radiationRadiative transferCoherence (philosophical gambling strategy)ThermalNanophotonicsPhysicsOptoelectronicsOpticsMaterials scienceRadiationMeteorologyThermodynamicsQuantum mechanicsThermal Radiation and Cooling TechnologiesQuantum Electrodynamics and Casimir EffectOptical properties and cooling technologies in crystalline materials
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