Title :
Design of Bottom-Emitting Metallic Nanolasers Integrated With Silicon-On-Insulator Waveguides
Author :
Bo-Tsun Chou ; Tien-Chang Lu ; Sheng-Di Lin
Author_Institution :
Nat. Chiao Tung Univ., Hsinchu, Taiwan
Abstract :
We propose and analyze a bottom-emitting metallic nanolaser with a cavity size smaller than one wavelength in three dimensions. We optimize the nanolaser performance by adjusting the thickness of SiNx insulator layer, pillar radius, p-cladding, and n-cladding layers. With a proper design, we can achieve the TE01 mode lasing with an extremely small effective mode volume of 0.135 (λ0/n)3 and an ultra low threshold gain of 247 cm-1. The nanolaser is integrated with a silicon-on-insulator waveguide through a bottom-connected grating coupler. By properly modifying the grating coupler period, fill factor, shift position, and grating height, a high coupling efficiency of 88.5% can be acquired.
Keywords :
diffraction gratings; integrated optoelectronics; laser cavity resonators; laser modes; nanophotonics; optical couplers; quantum well lasers; silicon compounds; silicon-on-insulator; waveguide lasers; SiNx-Si; TE01 mode lasing; bottom-connected grating coupler; bottom-emitting metallic nanolasers; cavity size; coupling efficiency; efficiency 88.5 percent; fill factor; grating coupler period; grating height; insulator layer thickness; mode volume; n-cladding layers; p-cladding layers; pillar radius; shift position; silicon-on-insulator waveguides; threshold gain; Cavity resonators; Couplings; Gratings; Optical coupling; Optical waveguides; Q-factor; Silver; Laser cavity resonators; Nanolaser; nanolaser; optical waveguides; photonic integrated circuits; quantum well lasers; silicon-on-insulator;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2015.2397889
