Litcius/Paper detail

A Stable Dual-Wavelength DFB Semiconductor Laser With Equivalent Chirped Sampled Grating

Yunshan Zhang, Bocheng Yuan, Jianqin Shi, Wenxuan Qi, Lianyan Li, Leilei Wang, Jilin Zheng, Shijian Guan, Tao Fang, Xiangfei Chen

2021IEEE Journal of Quantum Electronics17 citationsDOI

Abstract

A monolithic integrated dual-wavelength DFB semiconductor laser is fabricated and experimentally demonstrated. Utilizing the reconstruction-equivalent chirp (REC) technique, dual-wavelength lasing is obtained by introducing two symmetric equivalent phase shifts in a chirped sampled Bragg grating. The laser operates at 1650 nm and the wavelength spacing is about 0.8 nm at room temperature. The frequency of the beat signal between the two wavelengths is 88.47 GHz, and the linewidth of the beat signal is 5.1 MHz. Based on the REC technique, the grating pattern can be fabricated by using holographic exposure combining with conventional lithography. This work provides a simple and cost-effective way to achieve dual-wavelength semiconductor laser.

Topics & Concepts

Materials scienceLaser linewidthOpticsLaserSemiconductor laser theoryOptoelectronicsGratingDistributed feedback laserLasing thresholdChirpFiber Bragg gratingWavelengthBeat (acoustics)SemiconductorPhysicsPhotonic and Optical DevicesAdvanced Photonic Communication SystemsAdvanced Fiber Laser Technologies
A Stable Dual-Wavelength DFB Semiconductor Laser With Equivalent Chirped Sampled Grating | Litcius