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Excess noise generation during spectral broadening in a microstructured fiber

Excess noise generation during spectral broadening in a microstructured fiber

JournalApplied Physics B: Lasers and Optics
PublisherSpringer Berlin / Heidelberg
ISSN0946-2171 (Print) 1432-0649 (Online)
IssueVolume 77, Numbers 2-3 / September, 2003
CategoryRegular Paper
DOI10.1007/s00340-003-1177-8
Pages279-284
Subject CollectionPhysics and Astronomy
SpringerLink DateThursday, February 19, 2004
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Regular Paper

Excess noise generation during spectral broadening in a microstructured fiber

J.N. Ames1, S. Ghosh2, R.S. Windeler3, A.L. Gaeta2 and S.T. CundiffContact Information

(1) JILA, University of Colorado and National Institute of Standards and Technology, CO 80309–0440 Boulder, USA
(2) School of Applied and Engineering Physics, Cornell University, NY 14853 Ithaca, USA
(3) OFS Fitel Laboratories, NJ 07974 Murray Hill, USA

Published online: 16 July 2003

Abstract  We observe that nanojoule femtosecond pulses that are spectrally broadened in a microstructured fiber acquire excess noise. The excess noise is manifested as an increase in the noise floor of the rf spectrum of the photocurrent from a photodetector illuminated by the pulse train from the laser oscillator. Measurements are made of the intensity dependence of the excess noise for both 100 fs and sub-10 fs pulses. The excess noise is very strong for 100 fs pulses, but barely measurable for sub-10 fs pulses. A rigorous quantum treatment of the nonlinear propagation of ultrashort pulses predicts that, for a fixed generated bandwidth, the amount of excess noise decreases with pulse duration, in agreement with the experimental results.
PACS  42.65.Re; 42.62.Eh; 06.20.-f

Contact InformationS.T. Cundiff
Email: cundiffs@jila.colorado.edu
Fax: +1-303/735-0101
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Referenced by
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  1. Berkovsky, Andrey (2005) Self-focusing of few-cycle light pulses in dielectric media. Physical Review A 72(4)
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  2. Husakou, A. (2009) High-power, high-coherence supercontinuum generation in dielectric-coated metallic hollow waveguides. Optics Express 17(15)
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  3. Solli, D. R. (2008) Active Control of Rogue Waves for Stimulated Supercontinuum Generation. Physical Review Letters 101(23)
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  4. Meyer, S. A. (2008) Diode-pumped Yb:KYW femtosecond laser frequency comb with stabilized carrier-envelope offset frequency. The European Physical Journal D 48(1)
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  5. Fortier, T.M. (2003) Highly phase stable mode-locked lasers. IEEE Journal of Selected Topics in Quantum Electronics 9(4)
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  6. Dudley, John M. (2006) Supercontinuum generation in photonic crystal fiber. Reviews of Modern Physics 78(4)
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  7. Dombi, P (2004) Direct measurement and analysis of the carrier-envelope phase in light pulses approaching the single-cycle regime. New Journal of Physics 6
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