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Brillouin gain coefficient measurement of Bismuth oxide-based photonic crystal fiber

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8 Author(s)

Lee, J.H. ; Sch. of Electr. & Comput. Eng., Univ. of Seoul, Seoul, South Korea ; Song, K.Y. ; Yoon, H.J. ; Kim, J.S.
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The Brillouin gain coefficient of a 1.16-m-long bismuth oxide-based photonic crystal fiber is measured by using a beat lock-in probe detection scheme to overcome the limitation caused by considerable pump beam back-reflection at splicing points. g_B is found to be ~4times10^-11 m/W.

Published in:
Lasers and Electro-Optics, 2009 and 2009 Conference on Quantum electronics and Laser Science Conference. CLEO/QELS 2009. Conference on

Date of Conference: 2-4 June 2009

Page(s):: 1 - 2
E-ISBN :: 978-1-55752-869-8
Print ISBN:: 978-1-55752-869-8
INSPEC Accession Number:: 10859060

Conference Location :: Baltimore, MD
Product Type:: Conference Publications

Author(s)

Lee, J.H.
Sch. of Electr. & Comput. Eng., Univ. of Seoul, Seoul, South Korea
Song, K.Y. ; Yoon, H.J. ; Kim, J.S. ; Hasegawa, T. ; Nagashima, T. ; Ohara, S. ; Sugimoto, N.

INSPEC: CONTROLLED INDEXING

bismuth compounds

holey fibres

optical fibre testing

optical pumping

photonic crystals

splicing

stimulated Brillouin scattering

INSPEC: NON CONTROLLED INDEXING

Bi₂O₃

Brillouin gain coefficient measurement

beat lock-in probe detection scheme

bismuth oxide-based photonic crystal fiber

pump beam back-reflection

size 1.16 m

splicing points

ultra-high nonlinearity fiber

AUTHOR KEYWORDS

(060.4370) Nonlinear optics, fibers

(290.5900) Scattering, stimulated Brillouin

IEEE TERMS

Bismuth

Frequency

Gain measurement

Glass

Laser excitation

Optical fiber devices

Optical fibers

Photonic crystal fibers

Probes

Splicing

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