Issue 47, 2023

Weyl semimetal mediated epsilon-near-zero hybrid polaritons and the induced nonreciprocal radiation

Abstract

Polaritonic excitation and management in ultra-thin polar crystals has recently received significant attention and holds new promise for epsilon-near-zero (ENZ) modes. However, manipulation of the ENZ mode via anisotropic magneto-optic (MO) material remains elusive. Herein, we provide an effective strategy for constructing an ENZ polar thin film with dependence on Weyl semimetals (WSM). The thermal radiation of the proposed device is explored with electromagnetic (EM) simulations that utilize the anisotropic rigorous coupled-wave analysis (aRCWA) method. Strong coupling of the ENZ mode to WSM polaritons has been demonstrated, and the structural parameters hold tolerance on the order of hundreds of nanometers, which is highly favorable for low-cost fabrication and high-performance application. By changing both the azimuthal angle (ϕ) and angle of incidence (θ), the nonreciprocity (η) can be effectively influenced. The distribution of η is symmetrical with ϕ = 180°, η = 0 when ϕ = 90° and ϕ = 270°. The mechanism of this proposal is owing to the hybrid polaritons supported by the polar thin film and nonreciprocal radiation of WSM, which is validated by examining the amplitude distribution of the magnetic field. The nonreciprocal emitter described herein allows simultaneous control of spectral distribution and polarization of radiation, which will facilitate the active design and application of mid-infrared (MIR) thermal emitters.

Graphical abstract: Weyl semimetal mediated epsilon-near-zero hybrid polaritons and the induced nonreciprocal radiation

Article information

Article type
Paper
Submitted
30 Aug 2023
Accepted
16 Oct 2023
First published
23 Oct 2023

Phys. Chem. Chem. Phys., 2023,25, 32336-32344

Weyl semimetal mediated epsilon-near-zero hybrid polaritons and the induced nonreciprocal radiation

S. Xu, L. Qian, M. Sun and G. Zheng, Phys. Chem. Chem. Phys., 2023, 25, 32336 DOI: 10.1039/D3CP04183B

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