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A semiconductor-based, frequency-stabilized mode-locked laser using a phase modulator and an intracavity etalon

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Abstract

We report a frequency-stabilized semiconductor-based mode-locked laser that uses a phase modulator and an intracavity Fabry-Perot etalon for both active mode-locking and optical frequency stabilization. A twofold multiplication of the repetition frequency of the laser is inherently obtained in the process. The residual timing jitter of the mode-locked pulse train is 13fs (1Hz to 100MHz), measured after regenerative frequency division of the photo detected pulse train.

© 2010 Optical Society of America

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