N. V. Gurkin, V. A. Konyshev, O. E. Nanii, A. G. Novikov, V. N. Treshchikov, R. R. Ubaydullaev, “Dependence of the bit error rate on the signal power and length of a single-channel coherent single-span communication line (100 Gbit s-1) with polarisation division multiplexing”, Kvantovaya Elektronika, 45:1 (2015), 69–74 [Quantum Electron., 45:1 (2015), 69

Loading [MathJax]/jax/output/SVG/config.js

Kvantovaya Elektronika

RUS ENG

JOURNALS PEOPLE ORGANISATIONS CONFERENCES SEMINARS VIDEO LIBRARY PACKAGE AMSBIB

JavaScript is disabled in your browser. Please switch it on to enable full functionality of the website

	General information
	Latest issue
	Archive
	Impact factor
	Submit a manuscript

	Search papers
	Search references

	RSS
	Latest issue
	Current issues
	Archive issues
	What is RSS

Kvantovaya Elektronika:
Year:
Volume:
Issue:
Page:
	Find

Personal entry:
Login:
Password:
	Save password
	Enter
	Forgotten password?
	Register

Kvantovaya Elektronika, 2015, Volume 45, Number 1, Pages 69–74 (Mi qe16092)

This article is cited in 10 scientific papers (total in 10 papers)

Optical transmission of information

Dependence of the bit error rate on the signal power and length of a single-channel coherent single-span communication line (100 Gbit s^-1) with polarisation division multiplexing

N. V. Gurkin^a, V. A. Konyshev^a, O. E. Nanii^ba, A. G. Novikov^a, V. N. Treshchikov^a, R. R. Ubaydullaev^a

^a "T8" LLC, Moscow
^b M. V. Lomonosov Moscow State University, Faculty of Physics

Full-text PDF (555 kB) Citations (10)

References:

PDF

HTML

Abstract: We have studied experimentally and using numerical simulations and a phenomenological analytical model the dependences of the bit error rate (BER) on the signal power and length of a coherent single-span communication line with transponders employing polarisation division multiplexing and four-level phase modulation (100 Gbit s^-1 DP-QPSK format). In comparing the data of the experiment, numerical simulations and theoretical analysis, we have found two optimal powers: the power at which the BER is minimal and the power at which the fade margin in the line is maximal. We have derived and analysed the dependences of the BER on the optical signal power at the fibre line input and the dependence of the admissible input signal power range for implementation of the communication lines with a length from 30 – 50 km up to a maximum length of 250 km.

Keywords: single-span fibre-optic communication line, differential phase modulation, optical signal-to-noise ratio, coherent detection, electronic chromatic dispersion compensation, nonlinear distortions, nonlinear noise, amplified spontaneous noise.

Received: 27.01.2014
Revised: 21.04.2014

English version:
Quantum Electronics, 2015, Volume 45, Issue 1, Pages 69–74
DOI: https://doi.org/10.1070/QE2015v045n01ABEH015391

Bibliographic databases:

Document Type: Article

PACS: 42.79.Sz, 42.81.Dp

Language: Russian

Citation: N. V. Gurkin, V. A. Konyshev, O. E. Nanii, A. G. Novikov, V. N. Treshchikov, R. R. Ubaydullaev, “Dependence of the bit error rate on the signal power and length of a single-channel coherent single-span communication line (100 Gbit s^-1) with polarisation division multiplexing”, Kvantovaya Elektronika, 45:1 (2015), 69–74 [Quantum Electron., 45:1 (2015), 69–74]

Linking options:

https://www.mathnet.ru/eng/qe16092

https://www.mathnet.ru/eng/qe/v45/i1/p69

This publication is cited in the following 10 articles:

A. V. Lobzov, L. N. Isaeva, S. S. Kogan, 2024 Systems of Signal Synchronization, Generating and Processing in Telecommunications (SYNCHROINFO), 2024, 1
Bull. Lebedev Physics Institute, 50:suppl. 4 (2023), S435–S450
Quantum Electron., 50:2 (2020), 184–186
Quantum Electron., 48:4 (2018), 395–400
Quantum Electron., 48:12 (2018), 1157–1159
Quantum Electron., 47:11 (2017), 1049–1052
Quantum Electron., 47:12 (2017), 1144–1146
Quantum Electron., 46:10 (2016), 924–929
Quantum Electron., 46:12 (2016), 1121–1128
V.A. Konyshev, A.V. Leonov, O.E. Nanii, V.N. Treshchikov, R.R. Ubaydullaev, Optics Communications, 2015

Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

Statistics & downloads:
Abstract page:	541
Full-text PDF :	565
References:	75
First page:	20

Что такое QR-код?

Registration to the website

Logotypes