IRIS publication 255314348
DPSK Signal Regeneration With a Dual-Pump Nondegenerate Phase-Sensitive Amplifier
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TY - JOUR - Frascella, Paola,Sygletos, Stylianos,Gunning, Fatima C. Garcia,Weerasuriya, Ruwan,Gruener-Nielsen, Lars,Phelan, Richard,O'Gorman, James,Ellis, Andrew D. - 2011 - April - IEEE Photonics Technology Letters - DPSK Signal Regeneration With a Dual-Pump Nondegenerate Phase-Sensitive Amplifier - Validated - () - 23 - 88 - 516 - 518516 - We demonstrate, for the first time to our knowledge, regeneration of a 42.66-Gb/s differential phase-shift keyed signal using a dual-pump nondegenerate four-wave-mixing-based fiber-optic parametric amplifier. The regenerative performance of the subsystem is characterized in terms of bit-error rate against narrowband and wideband introduced noise. While a strong receiver sensitivity improvement, up to 20 dB, is noticed against narrowband noise, against quasi-random (wideband) noise we observe a regeneration of 2.7 dB.We demonstrate, for the first time to our knowledge, regeneration of a 42.66-Gb/s differential phase-shift keyed signal using a dual-pump nondegenerate four-wave-mixing-based fiber-optic parametric amplifier. The regenerative performance of the subsystem is characterized in terms of bit-error rate against narrowband and wideband introduced noise. While a strong receiver sensitivity improvement, up to 20 dB, is noticed against narrowband noise, against quasi-random (wideband) noise we observe a regeneration of 2.7 dB. - 1041-11351041-1135 - ://WOS:000289160100012://WOS:000289160100012 DA - 2011/04 ER -
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@article{V255314348, = {Frascella, Paola and Sygletos, Stylianos and Gunning, Fatima C. Garcia and Weerasuriya, Ruwan and Gruener-Nielsen, Lars and Phelan, Richard and O'Gorman, James and Ellis, Andrew D. }, = {2011}, = {April}, = {IEEE Photonics Technology Letters}, = {DPSK Signal Regeneration With a Dual-Pump Nondegenerate Phase-Sensitive Amplifier}, = {Validated}, = {()}, = {23}, = {88}, pages = {516--518516}, = {{We demonstrate, for the first time to our knowledge, regeneration of a 42.66-Gb/s differential phase-shift keyed signal using a dual-pump nondegenerate four-wave-mixing-based fiber-optic parametric amplifier. The regenerative performance of the subsystem is characterized in terms of bit-error rate against narrowband and wideband introduced noise. While a strong receiver sensitivity improvement, up to 20 dB, is noticed against narrowband noise, against quasi-random (wideband) noise we observe a regeneration of 2.7 dB.We demonstrate, for the first time to our knowledge, regeneration of a 42.66-Gb/s differential phase-shift keyed signal using a dual-pump nondegenerate four-wave-mixing-based fiber-optic parametric amplifier. The regenerative performance of the subsystem is characterized in terms of bit-error rate against narrowband and wideband introduced noise. While a strong receiver sensitivity improvement, up to 20 dB, is noticed against narrowband noise, against quasi-random (wideband) noise we observe a regeneration of 2.7 dB.}}, issn = {1041-11351041-1135}, = {://WOS:000289160100012://WOS:000289160100012}, source = {IRIS} }
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AUTHORS | Frascella, Paola,Sygletos, Stylianos,Gunning, Fatima C. Garcia,Weerasuriya, Ruwan,Gruener-Nielsen, Lars,Phelan, Richard,O'Gorman, James,Ellis, Andrew D. | ||
YEAR | 2011 | ||
MONTH | April | ||
JOURNAL_CODE | IEEE Photonics Technology Letters | ||
TITLE | DPSK Signal Regeneration With a Dual-Pump Nondegenerate Phase-Sensitive Amplifier | ||
STATUS | Validated | ||
TIMES_CITED | () | ||
SEARCH_KEYWORD | |||
VOLUME | 23 | ||
ISSUE | 88 | ||
START_PAGE | 516 | ||
END_PAGE | 518516 | ||
ABSTRACT | We demonstrate, for the first time to our knowledge, regeneration of a 42.66-Gb/s differential phase-shift keyed signal using a dual-pump nondegenerate four-wave-mixing-based fiber-optic parametric amplifier. The regenerative performance of the subsystem is characterized in terms of bit-error rate against narrowband and wideband introduced noise. While a strong receiver sensitivity improvement, up to 20 dB, is noticed against narrowband noise, against quasi-random (wideband) noise we observe a regeneration of 2.7 dB.We demonstrate, for the first time to our knowledge, regeneration of a 42.66-Gb/s differential phase-shift keyed signal using a dual-pump nondegenerate four-wave-mixing-based fiber-optic parametric amplifier. The regenerative performance of the subsystem is characterized in terms of bit-error rate against narrowband and wideband introduced noise. While a strong receiver sensitivity improvement, up to 20 dB, is noticed against narrowband noise, against quasi-random (wideband) noise we observe a regeneration of 2.7 dB. | ||
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ISBN_ISSN | 1041-11351041-1135 | ||
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URL | ://WOS:000289160100012://WOS:000289160100012 | ||
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