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Simulative Analysis of the Impact of Non-Linearity in Terms of BER, Q-Factor and Jitter in Optical Soliton Transmission at 40 GB/S.

by Manjit Singh, Himali Sarangal, Jyoteesh Malhotra
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International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 48 - Number 8
Year of Publication: 2012
Authors: Manjit Singh, Himali Sarangal, Jyoteesh Malhotra
10.5120/7366-0061

Manjit Singh, Himali Sarangal, Jyoteesh Malhotra . Simulative Analysis of the Impact of Non-Linearity in Terms of BER, Q-Factor and Jitter in Optical Soliton Transmission at 40 GB/S.. International Journal of Computer Applications. 48, 8 ( June 2012), 9-12. DOI=10.5120/7366-0061

@article{ 10.5120/7366-0061,
author = { Manjit Singh, Himali Sarangal, Jyoteesh Malhotra },
title = { Simulative Analysis of the Impact of Non-Linearity in Terms of BER, Q-Factor and Jitter in Optical Soliton Transmission at 40 GB/S. },
journal = { International Journal of Computer Applications },
issue_date = { June 2012 },
volume = { 48 },
number = { 8 },
month = { June },
year = { 2012 },
issn = { 0975-8887 },
pages = { 9-12 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume48/number8/7366-0061/ },
doi = { 10.5120/7366-0061 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-06T20:43:32.119875+05:30
%A Manjit Singh
%A Himali Sarangal
%A Jyoteesh Malhotra
%T Simulative Analysis of the Impact of Non-Linearity in Terms of BER, Q-Factor and Jitter in Optical Soliton Transmission at 40 GB/S.
%J International Journal of Computer Applications
%@ 0975-8887
%V 48
%N 8
%P 9-12
%D 2012
%I Foundation of Computer Science (FCS), NY, USA
Abstract

In this paper we have analyzes the impact of chirp factor in terms of Q-factor, BER and jitter with different dispersion parameters for optical Soliton transmission links at 40 Gb/s. The results show that BER is minimum, Q-factor is maximum and the jitter value is minimum at or near 0. 7 values of chirp factor, also, the performance Soliton transmission system has optimum value. Further, it has been indicated that BER is increased, Q-factor is decreased and jitter is increased from third order of PMD to second order of PMD to first order of PMD at chirp factor of 0. 7 value at which optimum transmission of soliton is done.

References
  1. Andrekson, Peter A. (1999) "40 Gbt/s soliton transmission on installed fiber lines" Department of microelectronics , photonics Laboratory Chalmer university of technology.
  2. Holzlöhner,Ronald et. al (2002) " Experimental and Theoretical Characterization of a 40-Gb/s Long-Haul Single-Channe Transmission System" Journal of lightwave technology, vol. 20, no 7, pp. 1124-1131 A. Eric Swanson (2001) "100- GHz Soliton Pulse Train Generation using Soliton compression of Two Phase side bands from a single DFB Laser. " IEEE photo technology letters, vol. 6, no. 10, pp. 1194-1196
  3. Arahira S. et. al(2001) "Optical short pulse generation at High repetition rate over 80ghz from a monolithic passively Mode locked dbr laser diode". Electronics letters vol 29, no. 11 pp. page 1013-101.
  4. Chongjin Xie, et. al. (2001) "Polarization-Mode Dispersion-Induced Outages in Soliton Transmission Systems" IEEE Photonics technology letters, vol. 13, no. 10, pp. 1079-81.
  5. J. Poirrier, F. Buchali, and H. B¨ulow (2001) "Electronic WDM crosstalk cancellation," in Proc. ECOC'01, vol. 1, pp. 94–94.
  6. Knox, F. M. et. al (1995) "Low jitter long distance pulse transmission near net fiber dispersion zero wavelength" Electronics letters, vol. 31 no 17 1466-67.
  7. Lakoba T. I. et. al (2000) "Optimization of the Average-Dispersion Range for Long-Haul Dispersion-Managed Soliton Systems" Journal of lightwave technology, vol. 18, no 11, pp. 1504-13.
  8. Mårtensson, Jonas and Berntson, Anders et. al (2001) "Dispersion-Managed Solitons for 160-Gb/s Data Transmission" IEEE Photonics technology letters, vol. 13, no 7, pp. 666-68.
  9. Matsumoto M. (2001) "Suppression of collision-induced timing jitter in WDM RZ-pulse transmission by adjustment of decision timing," in OFC'00 Tech. Digest, Anaheim, CA, vol. 3, pp. WM3 1–3.
  10. Morita, Itsuro et. al (1999) "Long-Haul Soliton WDM Transmission with Periodic Dispersion Compensation and Dispersion Slope Compensation" Journal of lightwave technology, vol. 17, no 1, pp. 80-85
  11. Himali Sarangal et. al (2008) "Communication System Based on Soliton" in proceedings of National Conference on Optical and Wireless Communication, NCOW'2008, DAVIET, Jalandhar, Nov 27-28, 2012 pp. 267-270.
  12. Himali Sarangal and Manjit Singh (2012) "Impact of Non-linearity in terms of BER in Optical Soliton Transmission" in proceedings of International Conference on Systemics, Cybernetics and Informatics ICSCI-2012, Hyderabad, Andhra Pradesh, Feb 15-18,2012.
Index Terms

Computer Science
Information Sciences

Keywords

Soliton Ber Chirp-factor Q-factor Jitter Nrz Gvd

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