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Frequency-selective near-field enhancement of radiative heat transfer via photonic-crystal slabs: a general computational approach for arbitrary geometries and materials

We demonstrate the possibility of achieving enhanced frequency-selective near-field radiative heat transfer between patterned (photonic crystal) slabs at designable frequencies and separations, exploiting a general numerical approach for computing heat transfer in arbitrary geometries and materials based on the finite-difference time-domain method. Our simulations reveal a tradeoff between selectivity and near-field enhancement as the slab--slab separation decreases, with the patterned heat transfer eventually reducing to the unpatterned result multiplied by a fill factor (described by a standard proximity approximation). We also find that heat transfer can be further enhanced at selective frequencies when the slabs are brought into a glide-symmetric configuration, a consequence of the degeneracies associated with the non-symmorphic symmetry group.

preprint2011arXivOpen access
Alejandro W. RodriguezOgnjen IlicPeter BermelIvan CelanovicJohn D. JoannopoulosMarin SoljacicSteven G. Johnson
cond-mat.mtrl-sci
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Alejandro W. RodriguezOgnjen IlicPeter BermelIvan CelanovicJohn D. JoannopoulosMarin SoljacicSteven G. Johnson

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