Strong coupling between magnetic plasmons and surface plasmons in a black phosphorus-spacer-metallic grating hybrid system

We propose a black phosphorus-spacer-metallic grating hybrid system to investigate the strong coupling between black phosphorus surface plasmons (BPSP) and magnetic plasmons (MP) at far-infrared frequencies. We theoretically and numerically illustrate interactions between the BPSP mode and MP mode i...

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Veröffentlicht in:	Optics letters 2018-10, Vol.43 (20), p.4985-4988
Hauptverfasser:	Qing, Ye Ming, Ma, Hui Feng, Cui, Tie Jun
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Sprache:	eng
Schlagworte:	Coupling Hybrid modes Hybrid systems Magnetic resonance Phosphorus Plasmons Slits
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creator	Qing, Ye Ming Ma, Hui Feng Cui, Tie Jun
description	We propose a black phosphorus-spacer-metallic grating hybrid system to investigate the strong coupling between black phosphorus surface plasmons (BPSP) and magnetic plasmons (MP) at far-infrared frequencies. We theoretically and numerically illustrate interactions between the BPSP mode and MP mode in the coupling regime, which leads to a prominent Rabi splitting and the formation of multiple hybrid modes. Since the mechanisms of the two resonance modes are completely different, the fields in the system can be selectively localized in the spacer layer or metallic slits by regulating the coupling between such modes. Due to the strong anisotropic in-plane properties of black phosphorus (BP), the coupling between BPSP and MP modes in both armchair and zigzag directions is quite different. This work offers a new paradigm to enhance the light-matter interaction through the coupling of multiple resonance modes, and the proposed device will provide potential applications in constructing easy-to-fabricate BP-based plasmonic devices.
doi_str_mv	10.1364/ol.43.004985
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subjects	Coupling Hybrid modes Hybrid systems Magnetic resonance Phosphorus Plasmons Slits
title	Strong coupling between magnetic plasmons and surface plasmons in a black phosphorus-spacer-metallic grating hybrid system
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