Coupling between lattice and waveguide modes in semiconductor plasmonic crystal lasers

Semiconductor-based plasmonic crystal lasers (PCLs) have narrow linewidth, small divergence angle, excellent thermal stability, and great potential for ultra-high-speed communications. The underlying mechanism and lasing modes for their operation is unfolded in this work. We find that the waveguide...

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Veröffentlicht in:	Journal of lightwave technology 2023-10, Vol.41 (20), p.1-5
Hauptverfasser:	Tsai, Yue-Ting, Wu, Yu-Hsun, Wu, Chu-Chun, Yen, Shun-Tung, Lin, Gray, Lin, Sheng-Di
Format:	Artikel
Sprache:	eng
Schlagworte:	Coupled modes Coupling Couplings Crystal lattices Electric fields Lasers Lattice vibration Lattices Metals mode coupling Optical waveguides Plasmonic crystal Plasmonics Plasmons semiconductor lasers Thermal stability waveguide mode Waveguides
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creator	Tsai, Yue-Ting Wu, Yu-Hsun Wu, Chu-Chun Yen, Shun-Tung Lin, Gray Lin, Sheng-Di
description	Semiconductor-based plasmonic crystal lasers (PCLs) have narrow linewidth, small divergence angle, excellent thermal stability, and great potential for ultra-high-speed communications. The underlying mechanism and lasing modes for their operation is unfolded in this work. We find that the waveguide mode coupling with the surface plasmonic mode plays an essential role in the semiconductor-based PCLs. The simulation and experimental data reveal that the cooperation of the dielectric layers and the metallic nano-pillar array gives the needed resonant mode of high-quality factor. The mode coupling strength has to be properly designed to make these intriguing devices working.
doi_str_mv	10.1109/JLT.2023.3286449
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subjects	Coupled modes Coupling Couplings Crystal lattices Electric fields Lasers Lattice vibration Lattices Metals mode coupling Optical waveguides Plasmonic crystal Plasmonics Plasmons semiconductor lasers Thermal stability waveguide mode Waveguides
title	Coupling between lattice and waveguide modes in semiconductor plasmonic crystal lasers
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