All-optical phase regeneration in a highly nonlinear lead-silicate fiber
All-optical phase regeneration in a highly nonlinear lead-silicate fiber
We demonstrate phase regeneration of a 40-Gb/s DPSK signal in a 1.7m-long lead-silicate fiber using a black-box phase-sensitive amplifier. Results show an improvement in the EVM values of the signal after regeneration for various noise levels.
Ettabib, M.A.
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Parmigiani, F.
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Feng, X.
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Jones, L.
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Kakande, J.
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Slavík, R.
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Poletti, F.
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Ponzo, G.M.
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Shi, J.D.
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Petrovich, M.N.
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Petropoulos, P.
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Loh, W.H.
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Richardson, D.J.
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Ettabib, M.A.
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Parmigiani, F.
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Feng, X.
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Jones, L.
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Kakande, J.
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Slavík, R.
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Poletti, F.
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Ponzo, G.M.
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Shi, J.D.
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Petrovich, M.N.
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Petropoulos, P.
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Loh, W.H.
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Richardson, D.J.
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Ettabib, M.A., Parmigiani, F., Feng, X., Jones, L., Kakande, J., Slavík, R., Poletti, F., Ponzo, G.M., Shi, J.D., Petrovich, M.N., Petropoulos, P., Loh, W.H. and Richardson, D.J.
(2012)
All-optical phase regeneration in a highly nonlinear lead-silicate fiber.
OSA Nonlinear Photonics 2012, Colorado Springs, United States.
17 - 21 Jun 2012.
Record type:
Conference or Workshop Item
(Poster)
Abstract
We demonstrate phase regeneration of a 40-Gb/s DPSK signal in a 1.7m-long lead-silicate fiber using a black-box phase-sensitive amplifier. Results show an improvement in the EVM values of the signal after regeneration for various noise levels.
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e-pub ahead of print date: 2012
Additional Information:
JM5A.11
Venue - Dates:
OSA Nonlinear Photonics 2012, Colorado Springs, United States, 2012-06-17 - 2012-06-21
Organisations:
Optoelectronics Research Centre
Identifiers
Local EPrints ID: 363478
URI: http://eprints.soton.ac.uk/id/eprint/363478
PURE UUID: 21b5e1f1-702b-4c3a-b942-a16b908211a8
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Date deposited: 25 Mar 2014 13:49
Last modified: 09 Feb 2023 02:46
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Contributors
Author:
M.A. Ettabib
Author:
F. Parmigiani
Author:
X. Feng
Author:
L. Jones
Author:
J. Kakande
Author:
R. Slavík
Author:
F. Poletti
Author:
G.M. Ponzo
Author:
J.D. Shi
Author:
M.N. Petrovich
Author:
P. Petropoulos
Author:
W.H. Loh
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