Publikation: Spectrally resolved optical frequency comb from a self-referenced 5 GHz femtosecond laser
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2007
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Optics Letters. 2007, 32(17), pp. 2553-2555. Available under: doi: 10.1364/OL.32.002553
Zusammenfassung
We report a mode-locked Ti:sapphire femtosecond laser with 5 GHz repetition rate. Spectral broadening of the 24 fs pulses in a microstructured fiber yields an octave-spanning spectrum and permits self-referencing and active stabilization of the emitted femtosecond laser frequency comb (FLFC). The individual modes of the 5 GHz FLFC are resolved with a high-resolution spectrometer based on a virtually imaged phased array spectral disperser. Isolation of single comb elements at a microwatt average power level is demonstrated. The combination of the high-power, frequency-stabilized 5 GHz laser and the straightforward resolution of its many modes will benefit applications in direct frequency comb spectroscopy. Additionally, such a stabilized FLFC should serve as a useful tool for direct mode-by-mode Fourier synthesis of optical waveforms.
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BARTELS, Albrecht, Raphael GEBS, Matthew S. KIRCHNER, Scott A. DIDDAMS, 2007. Spectrally resolved optical frequency comb from a self-referenced 5 GHz femtosecond laser. In: Optics Letters. 2007, 32(17), pp. 2553-2555. Available under: doi: 10.1364/OL.32.002553BibTex
@article{Bartels2007Spect-8909,
year={2007},
doi={10.1364/OL.32.002553},
title={Spectrally resolved optical frequency comb from a self-referenced 5 GHz femtosecond laser},
number={17},
volume={32},
journal={Optics Letters},
pages={2553--2555},
author={Bartels, Albrecht and Gebs, Raphael and Kirchner, Matthew S. and Diddams, Scott A.}
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<dcterms:abstract xml:lang="eng">We report a mode-locked Ti:sapphire femtosecond laser with 5 GHz repetition rate. Spectral broadening of the 24 fs pulses in a microstructured fiber yields an octave-spanning spectrum and permits self-referencing and active stabilization of the emitted femtosecond laser frequency comb (FLFC). The individual modes of the 5 GHz FLFC are resolved with a high-resolution spectrometer based on a virtually imaged phased array spectral disperser. Isolation of single comb elements at a microwatt average power level is demonstrated. The combination of the high-power, frequency-stabilized 5 GHz laser and the straightforward resolution of its many modes will benefit applications in direct frequency comb spectroscopy. Additionally, such a stabilized FLFC should serve as a useful tool for direct mode-by-mode Fourier synthesis of optical waveforms.</dcterms:abstract>
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