Author:
Zheng Jiahui,Yan Xin,Zhang Xia,Ren Xiaomin
Abstract
AbstractAn ultra-small mid-infrared plasmonic nanowire laser based on n-doped GaN metallic material is proposed and studied by the finite-difference time-domain method. In comparison with the noble metals, nGaN is found to possess superior permittivity characteristics in the mid-infrared range, beneficial for generating low-loss surface plasmon polaritons and achieving strong subwavelength optical confinement. The results show that at a wavelength of 4.2 µm, the penetration depth into the dielectric is substantially decreased from 1384 to 163 nm by replacing Au with nGaN, and the cutoff diameter of nGaN-based laser is as small as 265 nm, only 65% that of the Au-based one. To suppress the relatively large propagation loss induced by nGaN, an nGaN/Au-based laser structure is designed, whose threshold gain has been reduced by nearly half. This work may pave the way for the development of miniaturized low-consumption mid-infrared lasers.
Funder
National Natural Science Foundation of China
the Fund of State Key Laboratory of Information Photonics and Optical Communications
Publisher
Springer Science and Business Media LLC
Reference37 articles.
1. Willer U, Saraji M, Khorsandi A, Geiser P, Schade W. Near- and mid-infrared laser monitoring of industrial processes, environment and security applications. Opt Laser Eng. 2006;44:699–710.
2. Razeghi M, Bandyopadhyay N, Bai Y, Lu Q, Slivken S. Recent advances in mid infrared (3–5µm) quantum cascade lasers. Opt Mater Express. 2013;3:1872–84.
3. Spott A, Stanton EJ, Torres A, Davenport ML, Canedy CL, Vurgaftman I, et al. Interband cascade laser on silicon Optica. 2018;5:996–1005.
4. Andrejew A, Sprengel S, Amann M. GaSb-based vertical-cavity surface-emitting lasers with an emission wavelength at 3μm. Opt Lett. 2016;41:2799–802.
5. Khajavikhan M, Simic A, Katz M, Lee JH, Slutsky B, Mizrahi A, et al. Thresholdless nanoscale coaxial lasers. Nature. 2012;482:204–7.