Enhanced nonlinear optics with photonic-crystal and microstructure fibers

A. B. Fedotov; Ping Zhou; Alexander P. Tarasevitch; Yuri N. Kondrat'ev; K. V. Dukel'skii; V. S. Shevandin; V. B. Smirnov; Dietrich von der Linde; Alexei M. Zheltikov

doi:10.1117/12.543673

14 November 2003 Enhanced nonlinear optics with photonic-crystal and microstructure fibers

A. B. Fedotov, Ping Zhou, Alexander P. Tarasevitch, Yuri N. Kondrat'ev, K. V. Dukel'skii, V. S. Shevandin, V. B. Smirnov, Dietrich von der Linde, Alexei M. Zheltikov

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Proceedings Volume 5147, ALT'02 International Conference on Advanced Laser Technologies; (2003) https://doi.org/10.1117/12.543673
Event: ALT'02 International Conference on Advanced laser Technologies, 2002, Adelboden, Switzerland

Abstract

The mode structure of supercontinuum emission generated by 40-fs pulses of 800-nm Ti:sapphire laser radiation in fused silica microstructure fibers is experimentally studied. The long-wavelength and visible parts of supercontinuum emission are shown to be spatially separated in microstructure-fiber models. With an appropriate spectral filtering, bell-shaped modes of the long-wavelength section (~720-900 nm) of the supercontinuum generated in a microstructure fiber with a small core diameter can be separated from either doughnut-like or bipartite modes of the visible part (~400-600 nm) of this supercontinuum. This effect can be employed to spectrally slice single modes of supercontinuum emission from microstructure fibers.

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A. B. Fedotov, Ping Zhou, Alexander P. Tarasevitch, Yuri N. Kondrat'ev, K. V. Dukel'skii, V. S. Shevandin, V. B. Smirnov, Dietrich von der Linde, and Alexei M. Zheltikov "Enhanced nonlinear optics with photonic-crystal and microstructure fibers", Proc. SPIE 5147, ALT'02 International Conference on Advanced Laser Technologies, (14 November 2003); https://doi.org/10.1117/12.543673

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KEYWORDS

Optical fibers

Optical filters

Sapphire lasers

Visible radiation

Dispersion

Cladding

Phase matching

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