Demonstration of an external cavity semiconductor mode-locked laser

Meiyan Yuan; Meiyan Yuan; Weiqiang Wang; Weiqiang Wang; Xinyu Wang; Xinyu Wang; Yang Wang; Yang Wang; Qinghua Yang; Dong Cheng; Dong Cheng; Yang Liu; Yang Liu; Long Huang; Long Huang; Mingran Zhang; Mingran Zhang; Bo Liang; Bo Liang; Wei Zhao; Wei Zhao; Wenfu Zhang; Wenfu Zhang; Wenfu Zhang

doi:10.1364/OL.428794

Optics Letters
Vol. 46,
Issue 19,
pp. 4855-4858
(2021)
•https://doi.org/10.1364/OL.428794

Demonstration of an external cavity semiconductor mode-locked laser

Meiyan Yuan, Weiqiang Wang, Xinyu Wang, Yang Wang, Qinghua Yang, Dong Cheng, Yang Liu, Long Huang, Mingran Zhang, Bo Liang, Wei Zhao, and Wenfu Zhang

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Meiyan Yuan, Weiqiang Wang, Xinyu Wang, Yang Wang, Qinghua Yang, Dong Cheng, Yang Liu, Long Huang, Mingran Zhang, Bo Liang, Wei Zhao, and Wenfu Zhang, "Demonstration of an external cavity semiconductor mode-locked laser," Opt. Lett. 46, 4855-4858 (2021)

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Abstract

Electrically pumped semiconductor mode-locked lasers (SMLs) are promising in a wide range of applications due to compact size, high energy efficiency, and low cost. However, the long gain interaction length increases the spontaneous emission noise. In this Letter, an external cavity structure is adopted to improve the SML noise performance, as well as the flexibility to adjust the repetition rate. Two external cavity SMLs with repetition rates of 255 MHz and 10 GHz are demonstrated. For the 10 GHz SML, the signal-noise-ratio and radio frequency linewidth of the fundamental frequency reach 81.1 dB and 40 Hz, respectively. The high performance makes the laser a promising light source for microwave and communication applications.

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Data underlying the results presented in this Letter are not publicly available at this time but may be obtained from the authors upon reasonable request.

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Abstract

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Optics Letters