Issue 16, 2023

Anapole-excited terahertz multifunctional spoof surface plasmon polariton directional Janus metastructures

Abstract

The anapole mode, in which a distinct radiationless electromagnetic (EM) response in artificial media can be achieved, has attracted significant attention and been regarded as a promising candidate to initiate novel avenues to control the intrinsic radiative losses in nanophotonics and plasmonics, whose current research studies mainly focus on the manipulation of the one-directional incident wave. To exploit the propagation characteristic of incident waves in anapole-excited (AE) media, a set of terahertz (THz) multifunctional Janus metastructures (JMSs) for the opposite linear-polarized (LP) light excitation is presented in this paper. By introducing the directional-selective spoof surface plasmon polariton (SSPP) excited by anapole mode, a metastructure rasorber (MSR) possessing an absorption band of 2–3.08 THz (42.5%) and a co-polarized transmission window of 3.77–5.55 THz (38.2%) for the forward normal-incident LP wave is attained. Furthermore, the integration of the MSR and a polarization-conversation structure (PCS) can be used to fabricate a multifunctional Janus metadevice thus achieving the integration of EM energy harvesting, the co-polarized transmission, and cross-polarized reflection of light with opposite propagation directions, i.e., an absorption band of 2.14–3.09 THz (36.3%) for the forward normal-incident LP wave, and a cross-polarized reflection band of 2.08–3.03 THz (37.2%) for the backward vertical-incident LP wave, while attaining an identical co-polarized transmission window of 3.95–5.2 THz (27.3%). Moreover, by utilizing the substantial field-localization properties of anapole modes supported by the nested opposite-directional SSPP with different sizes, the Janus metastructure absorber (JMA) can achieve non-overlapped absorption bands of 2.02–2.84 THz (33.7%) and 2.88–4.58 THz (45.6%) for the bidirectional normal-incident LP waves, respectively. A series of passive JMSs based on the anapole modes excited by the opposite-directional incident waves significantly extend the theoretical framework and application field of multipole electrodynamics, especially aimed at directional-selective management.

Graphical abstract: Anapole-excited terahertz multifunctional spoof surface plasmon polariton directional Janus metastructures

Supplementary files

Article information

Article type
Paper
Submitted
21 Jan 2023
Accepted
24 Mar 2023
First published
27 Mar 2023

Phys. Chem. Chem. Phys., 2023,25, 11375-11386

Anapole-excited terahertz multifunctional spoof surface plasmon polariton directional Janus metastructures

H. Pan, B. Li and H. F. Zhang, Phys. Chem. Chem. Phys., 2023, 25, 11375 DOI: 10.1039/D3CP00341H

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