Soliton Transmission Control for Ultra High Speed System
Summary :
Soliton transmission control has already proved to be an outstanding technique and enable a soliton to be transmit over one million kilometers. This technique is not only applicable to vast distances but also to shorter distances where the amplifier spacing is greater than that of conventional systems. A combination of time and frequency domain control eliminates the noise accumulation and timing jitter caused by soliton interaction and the Gordon-Haus effect, that are the main impediments to extending the transmission distance. In this paper we describe soliton control techniques applied over an astronomical transmission distance of 180,000,000 km, and to a terrestrial system with a large amplifier spacing of up to 100km. We also report the possibility of realizing a sub-tera bit/s soliton transmission system operating over more than 5,000 km in which the soliton self-frequency shift is controlled with the soliton control technique.
- Publication
- IEICE TRANSACTIONS on Electronics Vol.E78-C No.1 pp.5-11
- Publication Date
- 1995/01/25
- Publicized
- Online ISSN
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- Type of Manuscript
- Special Section INVITED PAPER (Special Issue on Ultrafast Optoelectronics)
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Hirokazu KUBOTA, Masataka NAKAZAWA, "Soliton Transmission Control for Ultra High Speed System" in IEICE TRANSACTIONS on Electronics,
vol. E78-C, no. 1, pp. 5-11, January 1995, doi: .
Abstract: Soliton transmission control has already proved to be an outstanding technique and enable a soliton to be transmit over one million kilometers. This technique is not only applicable to vast distances but also to shorter distances where the amplifier spacing is greater than that of conventional systems. A combination of time and frequency domain control eliminates the noise accumulation and timing jitter caused by soliton interaction and the Gordon-Haus effect, that are the main impediments to extending the transmission distance. In this paper we describe soliton control techniques applied over an astronomical transmission distance of 180,000,000 km, and to a terrestrial system with a large amplifier spacing of up to 100km. We also report the possibility of realizing a sub-tera bit/s soliton transmission system operating over more than 5,000 km in which the soliton self-frequency shift is controlled with the soliton control technique.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/e78-c_1_5/_p
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@ARTICLE{e78-c_1_5,
author={Hirokazu KUBOTA, Masataka NAKAZAWA, },
journal={IEICE TRANSACTIONS on Electronics},
title={Soliton Transmission Control for Ultra High Speed System},
year={1995},
volume={E78-C},
number={1},
pages={5-11},
abstract={Soliton transmission control has already proved to be an outstanding technique and enable a soliton to be transmit over one million kilometers. This technique is not only applicable to vast distances but also to shorter distances where the amplifier spacing is greater than that of conventional systems. A combination of time and frequency domain control eliminates the noise accumulation and timing jitter caused by soliton interaction and the Gordon-Haus effect, that are the main impediments to extending the transmission distance. In this paper we describe soliton control techniques applied over an astronomical transmission distance of 180,000,000 km, and to a terrestrial system with a large amplifier spacing of up to 100km. We also report the possibility of realizing a sub-tera bit/s soliton transmission system operating over more than 5,000 km in which the soliton self-frequency shift is controlled with the soliton control technique.},
keywords={},
doi={},
ISSN={},
month={January},}
Copy
TY - JOUR
TI - Soliton Transmission Control for Ultra High Speed System
T2 - IEICE TRANSACTIONS on Electronics
SP - 5
EP - 11
AU - Hirokazu KUBOTA
AU - Masataka NAKAZAWA
PY - 1995
DO -
JO - IEICE TRANSACTIONS on Electronics
SN -
VL - E78-C
IS - 1
JA - IEICE TRANSACTIONS on Electronics
Y1 - January 1995
AB - Soliton transmission control has already proved to be an outstanding technique and enable a soliton to be transmit over one million kilometers. This technique is not only applicable to vast distances but also to shorter distances where the amplifier spacing is greater than that of conventional systems. A combination of time and frequency domain control eliminates the noise accumulation and timing jitter caused by soliton interaction and the Gordon-Haus effect, that are the main impediments to extending the transmission distance. In this paper we describe soliton control techniques applied over an astronomical transmission distance of 180,000,000 km, and to a terrestrial system with a large amplifier spacing of up to 100km. We also report the possibility of realizing a sub-tera bit/s soliton transmission system operating over more than 5,000 km in which the soliton self-frequency shift is controlled with the soliton control technique.
ER -
English
