The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
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The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Nous démontrons une transmission monocanal de 1.28 Tbit/s sur 525 km utilisant l'OTDM de signaux DQPSK subpicosecondes. Afin de faire face aux déficiences de transmission dues à la PMD d'ordre supérieur variable dans le temps, qui est l'un des principaux facteurs limitants d'une transmission ultra-rapide sur de longues distances, nous avons récemment développé une technique de transformation optique de Fourier ultrarapide dans le domaine temporel dans un configuration aller-retour. En appliquant cette technique à des impulsions subpicosecondes, les dégradations de transmission ont été considérablement réduites et des performances BER inférieures à la limite FEC ont été obtenues avec une marge système accrue.
Pengyu GUAN
Hans Christian Hansen MULVAD
Yutaro TOMIYAMA
Toshiyuki HIRANO
Toshihiko HIROOKA
Masataka NAKAZAWA
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Pengyu GUAN, Hans Christian Hansen MULVAD, Yutaro TOMIYAMA, Toshiyuki HIRANO, Toshihiko HIROOKA, Masataka NAKAZAWA, "Single-Channel 1.28 Tbit/s-525 km DQPSK Transmission Using Ultrafast Time-Domain Optical Fourier Transformation and Nonlinear Optical Loop Mirror" in IEICE TRANSACTIONS on Communications,
vol. E94-B, no. 2, pp. 430-436, February 2011, doi: 10.1587/transcom.E94.B.430.
Abstract: We demonstrate a single-channel 1.28 Tbit/s-525 km transmission using OTDM of subpicosecond DQPSK signals. In order to cope with transmission impairments due to time-varying higher-order PMD, which is one of the major limiting factors in such a long-haul ultrahigh-speed transmission, we newly developed an ultrafast time-domain optical Fourier transformation technique in a round-trip configuration. By applying this technique to subpicosecond pulses, transmission impairments were greatly reduced, and BER performance below FEC limit was obtained with increased system margin.
URL: https://global.ieice.org/en_transactions/communications/10.1587/transcom.E94.B.430/_p
Copier
@ARTICLE{e94-b_2_430,
author={Pengyu GUAN, Hans Christian Hansen MULVAD, Yutaro TOMIYAMA, Toshiyuki HIRANO, Toshihiko HIROOKA, Masataka NAKAZAWA, },
journal={IEICE TRANSACTIONS on Communications},
title={Single-Channel 1.28 Tbit/s-525 km DQPSK Transmission Using Ultrafast Time-Domain Optical Fourier Transformation and Nonlinear Optical Loop Mirror},
year={2011},
volume={E94-B},
number={2},
pages={430-436},
abstract={We demonstrate a single-channel 1.28 Tbit/s-525 km transmission using OTDM of subpicosecond DQPSK signals. In order to cope with transmission impairments due to time-varying higher-order PMD, which is one of the major limiting factors in such a long-haul ultrahigh-speed transmission, we newly developed an ultrafast time-domain optical Fourier transformation technique in a round-trip configuration. By applying this technique to subpicosecond pulses, transmission impairments were greatly reduced, and BER performance below FEC limit was obtained with increased system margin.},
keywords={},
doi={10.1587/transcom.E94.B.430},
ISSN={1745-1345},
month={February},}
Copier
TY - JOUR
TI - Single-Channel 1.28 Tbit/s-525 km DQPSK Transmission Using Ultrafast Time-Domain Optical Fourier Transformation and Nonlinear Optical Loop Mirror
T2 - IEICE TRANSACTIONS on Communications
SP - 430
EP - 436
AU - Pengyu GUAN
AU - Hans Christian Hansen MULVAD
AU - Yutaro TOMIYAMA
AU - Toshiyuki HIRANO
AU - Toshihiko HIROOKA
AU - Masataka NAKAZAWA
PY - 2011
DO - 10.1587/transcom.E94.B.430
JO - IEICE TRANSACTIONS on Communications
SN - 1745-1345
VL - E94-B
IS - 2
JA - IEICE TRANSACTIONS on Communications
Y1 - February 2011
AB - We demonstrate a single-channel 1.28 Tbit/s-525 km transmission using OTDM of subpicosecond DQPSK signals. In order to cope with transmission impairments due to time-varying higher-order PMD, which is one of the major limiting factors in such a long-haul ultrahigh-speed transmission, we newly developed an ultrafast time-domain optical Fourier transformation technique in a round-trip configuration. By applying this technique to subpicosecond pulses, transmission impairments were greatly reduced, and BER performance below FEC limit was obtained with increased system margin.
ER -