Open AccessAll-fiber tunable optical delay line
Author(s) -
Christophe Caucheteur,
Arnaud Mussot,
S. Bette,
Alexandre Kudlinski,
M. Douay,
E. Louvergneaux,
Patrice Mégret,
M. Taki,
Miguel GonzálezHerráez
Publication year - 2010
Publication title -
optics express
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.394
H-Index - 271
ISSN - 1094-4087
DOI - 10.1364/oe.18.003093
Subject(s) - optics , fiber bragg grating , materials science , grating , group delay and phase delay , differential group delay , wavelength division multiplexing , single mode optical fiber , bandwidth (computing) , optical fiber , wavelength , physics , polarization mode dispersion , telecommunications , computer science
We present a tunable optical delay line based on the use of a single chirped fiber Bragg grating written into a standard single mode optical fiber. In the proposed scheme, the delay is induced through the Bragg grating differential group delay curve. This is achieved by launching orthogonally polarized optical pulses in both directions into the Bragg grating and by controlling its local birefringence. This bidirectional propagation allows to compensate the second-order dispersion. The setup is suitable to delay pulses with a spectral width just less than the grating reflection bandwidth, which is particularly useful in the context of forthcoming wavelength division multiplexing ultra-high bit rate lightwave systems. In this work, the performances of the setup are investigated using a pulsed laser delivering 6.3 ps Fourier transform limited pulses at 1548 nm. A maximum delay of 120 ps (about 20 times the pulse width) is reported experimentally.
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