Publikation: Enhancing Near-Field Radiative Heat Transfer with Si-based Metasurfaces
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Physical Review Letters. 2017, 118(20), 203901. ISSN 0031-9007. eISSN 1079-7114. Available under: doi: 10.1103/PhysRevLett.118.203901
Zusammenfassung
We demonstrate in this work that the use of metasurfaces provides a viable strategy to largely tune and enhance near-field radiative heat transfer between extended structures. In particular, using a rigorous coupled wave analysis, we predict that Si-based metasurfaces featuring two-dimensional periodic arrays of holes can exhibit a room-temperature near-field radiative heat conductance much larger than any unstructured material to date. We show that this enhancement, which takes place in a broad range of separations, relies on the possibility to largely tune the properties of the surface plasmon polaritons that dominate the radiative heat transfer in the near-field regime.
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FERNÁNDEZ-HURTADO, Victor, Francisco José GARCÍA-VIDAL, Shanhui FAN, Juan Carlos CUEVAS, 2017. Enhancing Near-Field Radiative Heat Transfer with Si-based Metasurfaces. In: Physical Review Letters. 2017, 118(20), 203901. ISSN 0031-9007. eISSN 1079-7114. Available under: doi: 10.1103/PhysRevLett.118.203901BibTex
@article{FernandezHurtado2017-01-11T14:31:51ZEnhan-40097,
year={2017},
doi={10.1103/PhysRevLett.118.203901},
title={Enhancing Near-Field Radiative Heat Transfer with Si-based Metasurfaces},
number={20},
volume={118},
issn={0031-9007},
journal={Physical Review Letters},
author={Fernández-Hurtado, Victor and García-Vidal, Francisco José and Fan, Shanhui and Cuevas, Juan Carlos},
note={Article Number: 203901}
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<dcterms:abstract xml:lang="eng">We demonstrate in this work that the use of metasurfaces provides a viable strategy to largely tune and enhance near-field radiative heat transfer between extended structures. In particular, using a rigorous coupled wave analysis, we predict that Si-based metasurfaces featuring two-dimensional periodic arrays of holes can exhibit a room-temperature near-field radiative heat conductance much larger than any unstructured material to date. We show that this enhancement, which takes place in a broad range of separations, relies on the possibility to largely tune the properties of the surface plasmon polaritons that dominate the radiative heat transfer in the near-field regime.</dcterms:abstract>
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