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
Demonstramos compensação de dispersão variável usando Virtually Imaged Phased Array (VIPA) para um sistema de transmissão WDM denso de 40 Gbit/s. A grande faixa ajustável de -800 a +800 ps/nm em toda a faixa de comprimento de onda da banda C e a alta resolução ajustável de 1 ps/nm foram alcançadas usando um espelho tridimensional equipado com um motor de passo que desenvolvemos. Adotamos o monitor de dispersão de intensidade de 3 GHz extraído dos sinais de banda base de 40 Gbit/s recebidos e verificamos que este método de monitoramento de dispersão é aplicável à transmissão não linear, detectando o pico do monitor. Usando o compensador de dispersão variável VIPA e o monitor de dispersão, demonstramos 40 Tbit/s (1.28 Gbit/s
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Hiroki OOI, Tomoo TAKAHARA, George ISHIKAWA, Shinichi WAKANA, Yuichi KAWAHATA, Hideki ISONO, Nobuaki MITAMURA, "40-Gbit/s WDM Automatic Dispersion Compensation with Virtually Imaged Phased Array (VIPA) Variable Dispersion Compensators" in IEICE TRANSACTIONS on Communications,
vol. E85-B, no. 2, pp. 463-469, February 2002, doi: .
Abstract: We demonstrated variable dispersion compensation using the Virtually Imaged Phased Array (VIPA) for a 40-Gbit/s dense-WDM transmission system. The large tunable range from -800 to +800 ps/nm in the entire C-band wavelength range and the high tunable resolution of 1 ps/nm was achieved by using a 3-dimensional mirror equipped with a stepping motor that we developed. We adopted the dispersion monitor of 40-GHz intensity extracted from the received 40-Gbit/s baseband signals, and verified that this dispersion monitoring method is applicable to nonlinear transmission by detecting the monitor peak. Using the VIPA variable dispersion compensator and the dispersion monitor, we demonstrated 1.28-Tbit/s (40-Gbit/s
URL: https://global.ieice.org/en_transactions/communications/10.1587/e85-b_2_463/_p
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@ARTICLE{e85-b_2_463,
author={Hiroki OOI, Tomoo TAKAHARA, George ISHIKAWA, Shinichi WAKANA, Yuichi KAWAHATA, Hideki ISONO, Nobuaki MITAMURA, },
journal={IEICE TRANSACTIONS on Communications},
title={40-Gbit/s WDM Automatic Dispersion Compensation with Virtually Imaged Phased Array (VIPA) Variable Dispersion Compensators},
year={2002},
volume={E85-B},
number={2},
pages={463-469},
abstract={We demonstrated variable dispersion compensation using the Virtually Imaged Phased Array (VIPA) for a 40-Gbit/s dense-WDM transmission system. The large tunable range from -800 to +800 ps/nm in the entire C-band wavelength range and the high tunable resolution of 1 ps/nm was achieved by using a 3-dimensional mirror equipped with a stepping motor that we developed. We adopted the dispersion monitor of 40-GHz intensity extracted from the received 40-Gbit/s baseband signals, and verified that this dispersion monitoring method is applicable to nonlinear transmission by detecting the monitor peak. Using the VIPA variable dispersion compensator and the dispersion monitor, we demonstrated 1.28-Tbit/s (40-Gbit/s
keywords={},
doi={},
ISSN={},
month={February},}
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TY - JOUR
TI - 40-Gbit/s WDM Automatic Dispersion Compensation with Virtually Imaged Phased Array (VIPA) Variable Dispersion Compensators
T2 - IEICE TRANSACTIONS on Communications
SP - 463
EP - 469
AU - Hiroki OOI
AU - Tomoo TAKAHARA
AU - George ISHIKAWA
AU - Shinichi WAKANA
AU - Yuichi KAWAHATA
AU - Hideki ISONO
AU - Nobuaki MITAMURA
PY - 2002
DO -
JO - IEICE TRANSACTIONS on Communications
SN -
VL - E85-B
IS - 2
JA - IEICE TRANSACTIONS on Communications
Y1 - February 2002
AB - We demonstrated variable dispersion compensation using the Virtually Imaged Phased Array (VIPA) for a 40-Gbit/s dense-WDM transmission system. The large tunable range from -800 to +800 ps/nm in the entire C-band wavelength range and the high tunable resolution of 1 ps/nm was achieved by using a 3-dimensional mirror equipped with a stepping motor that we developed. We adopted the dispersion monitor of 40-GHz intensity extracted from the received 40-Gbit/s baseband signals, and verified that this dispersion monitoring method is applicable to nonlinear transmission by detecting the monitor peak. Using the VIPA variable dispersion compensator and the dispersion monitor, we demonstrated 1.28-Tbit/s (40-Gbit/s
ER -