期刊
INTERNATIONAL JOURNAL OF THERMAL SCIENCES
卷 195, 期 -, 页码 -出版社
ELSEVIER FRANCE-EDITIONS SCIENTIFIQUES MEDICALES ELSEVIER
DOI: 10.1016/j.ijthermalsci.2023.108602
关键词
Nonreciprocity; Thermal radiation; Dual-polarization; Nanopore arrays
This work proposes and systematically investigates dual-polarization strong nonreciprocal thermal radiations with nanopore arrays. The proposed device, which adopts silicon as the substrate, is built by stacking metal layer, magneto-optical layer, and silicon-based nanopore arrays. The physical phenomenon of dual-polarization strong nonreciprocal radiation is explained using rigorous coupled-wave analysis theory and coupled-mode theory.
Most nonreciprocal thermal radiations are known to work under TM polarization, which casts limitation for the application of nonreciprocal systems. This poses a significant challenge to the dual-polarization nonreciprocal thermal radiations. In this work, the dual-polarization strong nonreciprocal thermal radiations with nanopore arrays are proposed and systematically investigated. This novel nonreciprocal radiation that adopts silicon as the substrate is built by the stacked metal layer (Al), magneto-optical layer (InAs), and silicon-based nanopore ar-rays. Rigorous coupled-wave analysis theory (RCWA) and coupled-mode theory (CMT) are used to study the impact of two-dimensional silicon-based nanopore arrays on the nonreciprocity under different polarizations. With the finite element method, impedance matching theory and the electromagnetic field distribution at the resonant wavelength, the physical phenomenon that the proposed device exhibits dual-polarization strong nonreciprocal radiation is explained. Compared to the structures of photonic crystal and one-dimensional (1D) periodic grating, thermal radiations with two-dimensional (2D) structure effectively enable the nonreciprocity for both TE and TM polarizations, which is significantly valuable to the thermal radiation control and energy collection.
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