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Nonreciprocal thermal radiation in ultrathin magnetized epsilon-near-zero semiconductors

Authors :
Liu, Mengqi
Xia, Shuang
Wan, Wenjian
Qin, Jun
Li, Hua
Zhao, Changying
Bi, Lei
Qiu, Cheng-Wei
Publication Year :
2022

Abstract

Spectral/angular emissivity $e$ and absorptivity ${\alpha}$ of an object are widely believed to be identical by Kirchhoff's law of thermal radiation in reciprocal systems, but this introduces an intrinsic and inevitable energy loss for energy conversion and harvesting devices. So far, experimental evidences of breaking this well-known balance are still absent, and previous theoretical proposals are restricted to narrow single-band nonreciprocal radiation. Here we observe for the first time, to our knowledge, the violation of Kirchhoff's law using ultrathin ($0.6$ has been experimentally demonstrated under a moderate external magnetic field. Moreover, based on magnetized ENZ building blocks supporting asymmetrically radiative Berreman and surface ENZ modes, we show versatile shaping of nonreciprocal thermal radiation: single-band, dual-band, and broadband nonreciprocal emission spectra at different wavebands. Our findings of breaking Kirchhoff's law will advance the conventional understanding of emission and absorption processes of natural objects, and lay a solid foundation for more comprehensive studies in designing various nonreciprocal thermal emitters. The reported recipe of diversely shaping nonreciprocal emission will also breed new possibilities in renovating next-generation nonreciprocal energy devices in the areas of solar cells, thermophotovoltaic, radiative cooling, etc.<br />Comment: 21 pages, 4 figures

Details

Language :
English
Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....7e003b61039d033580f4d43141c9ef16