Enhanced Band Filling Effect and Broadband Multi-wavelength Lasing in Plasmonic Nanocavities

Jialu Xu; Jialu Xu; Jialu Xu; Taiping Zhang; Taiping Zhang; Taiping Zhang; Yongzhuo Li; Yongzhuo Li; Yongzhuo Li; Zhen Wang; Zhen Wang; Zhen Wang; Jianxing Zhang; Jianxing Zhang; Jianxing Zhang; Qiang Kan; Ruikang Zhang; Cunzheng Ning; Cunzheng Ning; Cunzheng Ning; Cunzheng Ning

doi:10.1364/CLEO_SI.2023.STh3R.4

CLEO 2023
Technical Digest Series (Optica Publishing Group, 2023),
paper STh3R.4
•https://doi.org/10.1364/CLEO_SI.2023.STh3R.4

Enhanced Band Filling Effect and Broadband Multi-wavelength Lasing in Plasmonic Nanocavities

Jialu Xu, Taiping Zhang, Yongzhuo Li, Zhen Wang, Jianxing Zhang, Qiang Kan, Ruikang Zhang, and Cunzheng Ning

CLEO: Science and Innovations 2023

San Jose, CA United States
7–12 May 2023
ISBN: 978-1-957171-25-8

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Integrated plasmonics (STh3R)

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J. Xu, T. Zhang, Y. Li, Z. Wang, J. Zhang, Q. Kan, R. Zhang, and C. Ning, "Enhanced Band Filling Effect and Broadband Multi-wavelength Lasing in Plasmonic Nanocavities," in CLEO 2023, Technical Digest Series (Optica Publishing Group, 2023), paper STh3R.4.

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Abstract

We demonstrate size-confinement enhanced band filling effect to tune bandgap with low pump energy of 10^-2 fJ/meV and large bandgap tunability of 263 meV. Broadband multi-wavelength lasing covering communication band is realized using plasmonic nanocavities.

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