Surface-grating distributed Bragg reflector quantum-well lasers fabricated in AlGaAs–GaAs asymmetric epitaxial waveguides

We reported on a single-longitudinal-mode operated distributed Bragg reflector laser diode emitting at 1950 nm with an on-chip integrated power amplifier. Second-order Chromium–Bragg gratings are carefully designed and fabricated at the end of the ridge waveguide. Achieving a stable single-mode operation with a large injecting current range of 800 mA from 15 °C to 40 °C. The maximum side-mode suppression ratio (SMSR) is up to 42 dB. To increase the output power, an on-chip integrated master oscillator power amplifier (MOPA) is also introduced. MOPA-DBR lasers with different matching configurations between the gain peak and Bragg wavelength are fabricated, resulting in various amplification consequences. The best device is realized with 40 nm red-shifted between Bragg wavelength and photoluminescence (PL) peak. A power amplification of 5.6 times is achieved with the maximum output power of 45 mW. Thus, we put up the feasibility and key design parameters of on-chip integrated power amplification DBR lasers towards mid-infrared.

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Surface-grating distributed Bragg reflector quantum-well lasers fabricated in AlGaAs–GaAs asymmetric epitaxial waveguides

Cited by 2 publications

References 19 publications

Novel self-consistent method for determining optical coupling coefficients and grating losses of distributed Bragg reflector lasers

Novel self-consistent method for determining optical coupling coefficients and grating losses of distributed Bragg reflector lasers

High Performance GaSb-Based DBR Laser with On-Chip Integrated Power Amplifier via Gain-Match Design

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