Ultra-compact injection terahertz laser using the resonant inter-layer radiative transitions in multi-graphene-layer structure

Alexander A. Dubinov; Andrey Bylinkin; Vladimir Ya Aleshkin; Victor Ryzhii; Taiichi Otsuji; Dmitry Svintsov

doi:10.1364/OE.24.029603

Ultra-compact injection terahertz laser using the resonant inter-layer radiative transitions in multi-graphene-layer structure

Alexander A. Dubinov, Andrey Bylinkin, Vladimir Ya Aleshkin, Victor Ryzhii, Taiichi Otsuji, Dmitry Svintsov

電気通信研究所・情報通信基盤研究部門

研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

9 被引用数 (Scopus)

抄録

The optimization of laser resonators represents a crucial issue for the design of terahertz semiconductor lasers with high gain and low absorption loss. In this paper, we put forward and optimize the surface plasmonic metal waveguide geometry for the recently proposed terahertz injection laser based on resonant radiative transitions between tunnel-coupled graphene layers. We find an optimal number of active graphene layer pairs corresponding to the maximum net modal gain. The maximum gain increases with frequency and can be as large as ∼ 500 cm^-1 at 8 THz, while the threshold length of laser resonator can be as small as ∼ 50 μm. Our findings substantiate the possibility of ultra-compact voltage-tunable graphene-based lasers operating at room temperature.

本文言語	英語
ページ（範囲）	29603-29612
ページ数	10
ジャーナル	Optics Express
巻	24
号	26
DOI	https://doi.org/10.1364/OE.24.029603
出版ステータス	出版済み - 2016

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10.1364/OE.24.029603

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引用スタイル

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abstract = "The optimization of laser resonators represents a crucial issue for the design of terahertz semiconductor lasers with high gain and low absorption loss. In this paper, we put forward and optimize the surface plasmonic metal waveguide geometry for the recently proposed terahertz injection laser based on resonant radiative transitions between tunnel-coupled graphene layers. We find an optimal number of active graphene layer pairs corresponding to the maximum net modal gain. The maximum gain increases with frequency and can be as large as ∼ 500 cm-1 at 8 THz, while the threshold length of laser resonator can be as small as ∼ 50 μm. Our findings substantiate the possibility of ultra-compact voltage-tunable graphene-based lasers operating at room temperature.",

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AU - Otsuji, Taiichi

AU - Svintsov, Dmitry

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