Membrane III-V/Si DFB Laser Using Uniform Grating and Width-Modulated Si Waveguide

Takuma Aihara, Tatsurou Hiraki, Takuro Fujii, Koji Takeda, Takaaki Kakitsuka, Tai Tsuchizawa, Shinji Matsuo

Research output: Contribution to journalArticle

Abstract

Membrane buried-heterostructure III-V/Si distributed feedback (DFB) lasers with a stopband-modulated cavity on a Si substrate have been developed. The membrane III-V layers with 230-nm thickness enable us to construct an optical supermode with a 220-nm-thick Si waveguide that is used in standard Si photonics platform. We employ a uniform grating and Si waveguide, in which Si waveguide width is modulated to control the center wavelength of the stopband. The cavity can be designed by controlling the modulation width and modulation length of Si waveguide. Therefore, it is easy to engineer and fabricate the laser cavity compared with the cavity using λ/4-phase shift grating. Output light from the cavity is coupled to Si waveguide through InP inverse taper waveguide, and then coupled to SiOx waveguide through Si inverse taper waveguide, which provides the 2-dB fiber coupling loss. We have demonstrated single-mode lasing by using Si waveguide, where its width is increased 80 nm at the center of the cavity. The threshold current and maximum fiber output power are 3 mA and 4 mW, respectively. By extending the active region length to 1 mm, 17-mW fiber coupled output power is obtained. High-temperature operation up to 130 °C is also obtained with a 1-mW fiber output power.

Original languageEnglish
Article number9027881
Pages (from-to)2961-2967
Number of pages7
JournalJournal of Lightwave Technology
Volume38
Issue number11
DOIs
Publication statusPublished - 2020 Jun 1

Keywords

  • Photonic integrated circuits
  • semiconductor lasers
  • silicon photonics

ASJC Scopus subject areas

  • Atomic and Molecular Physics, and Optics

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    Aihara, T., Hiraki, T., Fujii, T., Takeda, K., Kakitsuka, T., Tsuchizawa, T., & Matsuo, S. (2020). Membrane III-V/Si DFB Laser Using Uniform Grating and Width-Modulated Si Waveguide. Journal of Lightwave Technology, 38(11), 2961-2967. [9027881]. https://doi.org/10.1109/JLT.2020.2978808