The Effects of Intracavity Phase Modulation and Extracavity Optical Filtering on Amplitude Noise of Mode-Locked Pulse Trains
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Date
2018
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Institute of Electrical and Electronics Engineers Inc.
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Green Open Access
Yes
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Abstract
An actively mode-locked, fiber-coupled semiconductor ring laser that employs both a phase modulator and an amplitude modulator was built. The laser was mode-locked by loss modulation at 10 GHz and the intracavity phase modulator was driven at the cavity fundamental frequency of 1.63 MHz. The effects of the intracavity phase modulation on the stability of the optical spectrum, the timing jitter, and the amplitude noise of the pulse train was analyzed. It was found that using this method, the amplitude fluctuation can be reduced by 40%, and the stability of the optical spectrum can be improved while keeping the phase noise of the system unchanged. © 2019 Elsevier B.V., All rights reserved.
Description
Ozdur, Ibrahim/0000-0001-6452-0804
ORCID
Keywords
Laser Stabilization, Mode-Locked Laser, Phase Modulation, Locks (Fasteners), Mode-Locked Fiber Lasers, Phase Modulation, Photonics, Ring Lasers, Semiconductor Lasers, Amplitude Fluctuations, Amplitude Modulators, Fundamental Frequencies, Intra-Cavity Phase, Laser Stabilization, Mode-Locked Laser, Mode-Locked Pulse Trains, Optical Filtering, Optical Signal Processing
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Fields of Science
0103 physical sciences, 01 natural sciences
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Source
-- 31st Annual Conference of the IEEE Photonics Society, IPC 2018 -- Reston; VA; Hilton Regency Reston -- 142273
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1
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2
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