Super-Planckian Thermophotovoltaics Without Vacuum Gaps

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A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä
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Date
2017-11-09
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Language
en
Pages
6
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PHYSICAL REVIEW APPLIED, Volume 8, issue 5
Abstract
We introduce the concept of a thermophotovoltaic system whose emitter is separated from the photovoltaic cell by an intermediate thick slab of gallium arsenide. Owing to the engineered structure of the emitter (a multilayer structure of negative- and positive-epsilon layers) together with a high refractiveindex and transparency of the intermediate slab, we achieve a super-Planckian and frequency-selective spectrum of radiative heat transfer which is desirable for the efficient performance of thermophotovoltaic systems.
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Keywords
RADIATIVE HEAT-TRANSFER, HYPERBOLIC METAMATERIALS, THERMAL-RADIATION, POWER GENERATORS, SURFACE-MODES, TEMPERATURE, PERFORMANCE, IMPACTS, SYSTEMS, LIMIT
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Citation
Mirmoosa, M S, Biehs, S -A & Simovski, C R 2017, ' Super-Planckian Thermophotovoltaics Without Vacuum Gaps ', Physical Review Applied, vol. 8, no. 5, 054020 . https://doi.org/10.1103/PhysRevApplied.8.054020