Add to BibSonomyAbstract
We demonstrate a novel high-speed and broadband laser architecture based on stretched pulse active mode locking that provides a wavelength-swept and wavelength-stepped output. The laser utilizes a single intracavity 8.3 meter chirped fiber Bragg grating to generate positive and negative dispersion, and can be operated with or without an intracavity fixed Fabry–Perot etalon to generate wavelength-swept and wavelength-stepped (frequency comb) outputs, respectively. Using a four-path delay line at the output, we achieved 16.3 MHz repetition rates and a 62 nm lasing bandwidth centered at 1550 nm. Single-sided double-pass coherence lengths of 1.25 mm for the wavelength-swept configuration and more than 30 mm for the wavelength-stepped configuration were obtained. Relative intensity noise was measured to be better than . The stretched-pulse mode-locked architecture utilizing long chirped fiber Bragg gratings offers a simple and compact design for a broadband wavelength-tuned output at unprecedented speeds, and can address the need for fast sources in applications such as optical ranging, imaging, and sensing.
© 2017 Optical Society of America
Full Article | PDF ArticleMore Like This
Chengming Wang, Zichen Yin, Bin He, Zhengyu Chen, Zhangwei Hu, Yejiong Shi, Xiao Zhang, Ning Zhang, Linkai Jing, Guihuai Wang, and Ping Xue
Opt. Lett. 48(15) 4025-4028 (2023)
JongYoon Joo, Tae Shik Kim, Benjamin J. Vakoc, and Wang-Yuhl Oh
Opt. Lett. 46(16) 3857-3860 (2021)
Lin Wang, Minggui Wan, Zhenkun Shen, Xudong Wang, Yuan Cao, Xinhuan Feng, and Bai-ou Guan
Photon. Res. 5(3) 219-223 (2017)