Broadband and wide angle nonreciprocal thermal emission from Weyl semimetal structures

Butler, Andrew; Argyropoulos, Christos

doi:10.1364/josab.495725

Cited by 20 publications

(2 citation statements)

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“…Thus, the nonreciprocal property disappears under these two configurations that represent the limits of nonreciprocity. Until now, most of the research on NLP concerned with ppolarized incidence wave [36,63,64]. Considering the promising applications of NLP, it is necessary to generate strong nonreciprocity for both s-and p-polarized incidence waves [65].…”

Section: Tunable Nlp With Incidence and Azimuthal Anglesmentioning

confidence: 99%

“…To alleviate the requirement of strong magnetic fields, magnet-free NRMs are extremely appreciated for new strategy to accomplish the strong nonreciprocity without any external stimulus [32,33]. Quite recently, Weyl semimetals (WSMs) have drawn much attention to improve the nonreciprocal properties [34][35][36][37][38]. It is also should be pointed out that complex nano-patterning or multilayer deposition methods need to be employed to achieve previously mentioned goals that are very difficult to implement in practice [39][40][41][42][43], especially the WSM is still immature in term of fabrication.…”

Section: Introductionmentioning

confidence: 99%

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Wide-angle and Fano-shape contrast between emission and absorption in hybrid polariton-involved planar structure

Qian,

Xu,

et al. 2024

J. Opt.

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Nonreciprocal light propagation (NLP) in planar structure has become a hot topic because of the pattern-free fabrication process and the potentials for exploring heat transfer and energy management. An effective strategy incorporated with natural van der Waals (vdW) material (α-phase molybdenum trioxide, α-MoO3}), ultra-thin polar crystal (slicon carbide, SiC) thin film and a Weyl semimetal (WSM) interlayer sitting on a metal (silver, Ag) substrate is proposed. The emission and absorption of the suggested device is explored with electromagnetic (EM) simulations that utilizethe 4×4 transfer matrix method (TMM). Angular-resolved emission shows that the Fano-shape of nonreciprocity can be maintained within wide angle range. Tunable Fano resonances (FRs) with different line shapes are demonstrated by varying the structural parameters. Moreover, the enhanced nonreciprocal radiation effect can be observed for both s- and p-polarized incidence waves. The proposal allows simultaneous control of spectral distribution and polarization of radiation, which will facilitate the active design and aplication of mid-infrared (MIR) emitters.Angular-resolved emission shows that the Fano-shape of nonreciprocity can be maintained within wide angle range. Tunable Fano resonances (FRs) with different line shapes are demonstrated by varying the structural parameters. Moreover, the enhanced nonreciprocal radiation effect can be observed for both s- and p-polarized incidence waves. The proposal allows simultaneous control of spectral distribution and polarization of radiation, which will facilitate the active design and aplication of mid-infrared (MIR) emitters.

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