Holey fibers with 0.4-to 32mu-lattice-constant photonic band-gap cladding: fabrication, characterization, and applications

Andrei B. Fedotov; Michael V. Alfimov; A. A. Ivanov; Sergei N. Bagayev; V. S. Pivtsov; Alexander P. Tarasevitch; Dietrich von der Linde; A. A. Podshivalov; Leonid A. Golovan; Pavel K. Kashkarov; Valentin I. Beloglazov; M. S. Syrchin; Stanislav O. Konorov; S. A. Magnitskii; Andrey V. Tarasishin; Dusan Chorvat; A. N. Naumov; Dmitri A. Sidorov-Biryukov; Leonid A. Melnikov; Nina Skibina; Alexei M. Zheltikov

doi:10.1117/12.468967

29 May 2002 Holey fibers with 0.4-to 32-μm-lattice-constant photonic band-gap cladding: fabrication, characterization, and applications

Andrei B. Fedotov, Michael V. Alfimov, A. A. Ivanov, Sergei N. Bagayev, V. S. Pivtsov, Alexander P. Tarasevitch, Dietrich von der Linde, A. A. Podshivalov, Leonid A. Golovan, Pavel K. Kashkarov, Valentin I. Beloglazov, M. S. Syrchin, Stanislav O. Konorov, S. A. Magnitskii, Andrey V. Tarasishin, Dusan Chorvat, A. N. Naumov, Dmitri A. Sidorov-Biryukov, Leonid A. Melnikov, Nina Skibina, Alexei M. Zheltikov

Author Affiliations +

Proceedings Volume 4748, ICONO 2001: Fundamental Aspects of Laser-Matter Interaction and Physics of Nanostructures; (2002) https://doi.org/10.1117/12.468967
Event: XVII International Conference on Coherent and Nonlinear Optics (ICONO 2001), 2001, Minsk, Belarus

Abstract

The results of experimental and theoretical studies of the properties of holey fibers are presented. The fabrication of holey fibers with a pitch of the two-dimensional periodic structure of the cladding less than 500 nm allowed us to experimentally observe a photonic band gap in transmission spectra of holey fibers tunable within the range of 930 - 1030 nm. It is demonstrated that holey fibers provide an opportunity to considerably increase the efficiency of spectral broadening and phase control of short laser pulses as compared with conventional fibers.

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Andrei B. Fedotov, Michael V. Alfimov, A. A. Ivanov, Sergei N. Bagayev, V. S. Pivtsov, Alexander P. Tarasevitch, Dietrich von der Linde, A. A. Podshivalov, Leonid A. Golovan, Pavel K. Kashkarov, Valentin I. Beloglazov, M. S. Syrchin, Stanislav O. Konorov, S. A. Magnitskii, Andrey V. Tarasishin, Dusan Chorvat, A. N. Naumov, Dmitri A. Sidorov-Biryukov, Leonid A. Melnikov, Nina Skibina, and Alexei M. Zheltikov "Holey fibers with 0.4-to 32-μm-lattice-constant photonic band-gap cladding: fabrication, characterization, and applications", Proc. SPIE 4748, ICONO 2001: Fundamental Aspects of Laser-Matter Interaction and Physics of Nanostructures, (29 May 2002); https://doi.org/10.1117/12.468967

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KEYWORDS

Optical fibers

Cladding

Physics

Dispersion

Femtosecond phenomena

Photonic crystals

Biomedical optics

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