Title :
Long-Term Frequency Stabilization of 10-GHz Quantum-Dash Passively Mode-Locked Lasers
Author :
Merghem, Kamel ; Calo, Cosimo ; Panapakkam, Vivek ; Martinez, Anthony ; Lelarge, Francois ; Ramdane, Abderrahim
Author_Institution :
Lab. for Photonics & Nanostruct., Marcoussis, France
Abstract :
This paper reports on the repetition frequency stability of InAs/InP quantum-dash-based mode locked lasers emitting in the 1.55-μm telecom window and of a long-term frequency stabilization schemes. We discuss the main noise sources that affect the frequency stability. In free running operation, quantum-dash-based mode locked lasers demonstrate an initial long-term stability of ~ 10-7. In order to improve it, we developed different approaches based on electrical feedback and optical feedback loops. The stabilization systems exploit the bias-dependent frequency drift and the optical feedback sensitivity to keep repetition frequency in lock for an extensive period of time with a stability of 1.5 × 10-9.
Keywords :
III-V semiconductors; indium compounds; laser feedback; laser frequency stability; laser mode locking; quantum dash lasers; InAs-InP; electrical feedback; free running operation; frequency 10 GHz; long-term frequency stabilization; optical feedback; quantum-dash passively mode-locked lasers; telecom window; wavelength 1.55 mum; Frequency measurement; Laser feedback; Laser mode locking; Laser stability; Optical feedback; Radio frequency; Semiconductor lasers; Mode locked semiconductor lasers; long-term stabilization; quantum dash lasers;
Journal_Title :
Selected Topics in Quantum Electronics, IEEE Journal of
DOI :
10.1109/JSTQE.2015.2440258
