Overcoming limits to near-field radiative heat transfer in uniform planar media through multilayer optimization

Authors :: Riccardo Messina
Alejandro W. Rodriguez
Weiliang Jin
Department of Electrical Engineering [Princeton] (EE)
Princeton University
Laboratoire Charles Coulomb (L2C)
Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)
Source :: Optics Express, Optics Express, Optical Society of America-OSA Publishing, 2017, 25 (13), pp.14746-14759. ⟨10.1364/OE.25.014746⟩
Publication Year :: 2017
Abstract: Radiative heat transfer between uniform plates is bounded by the narrow range and limited contribution of surface waves. Using a combination of analytical calculations and numerical gradient-based optimization, we show that such a limitation can be overcome in complicated multilayer geometries, allowing the scattering and coupling rates of slab resonances to be altered over a broad range of evanescent wavevectors. We conclude that while the radiative flux between two inhomogeneous slabs can only be weakly enhanced, the flux between a dipolar particle and an inhomogeneous slab---proportional to the local density of states---can be orders of magnitude larger, albeit at the expense of increased frequency selectivity. A brief discussion of hyperbolic metamaterials shows that they provide far less enhancement than optimized inhomogeneous slabs.<br />9 pages, 3 figures

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