Overview
ABSTRACT
Operators of fixed telephone, mobile telephone, and internet all use light to carry information in the core of their networks, through fiber optic. In this first article of a series of two, we define the basic notions, setting the grounds for the introduction of the major challenges in the field. We anatomize transmission systems, focusing primarily on transmitter/receiver equipment and on optical amplifiers. We list the various techniques for multiplexing, and review the different types of detection schemes. Then, we review the performance assessment methods, for characterizing stand-alone components or the full system.
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Sébastien BIGO: Director of Optical Networks Bell Labs, Alcatel-Lucent, Nozay, France
INTRODUCTION
Decades before it was connected directly to subscribers, fiber optics had taken root in the shadow of the Internet, to the point of becoming its strongest pillar. But around this fiber must be built optical telecommunications systems of often complex architecture, which form the arteries that link the major cities of a single country or continent, from a few dozen to a few thousand kilometers apart. The optical signals they carry must be regularly regenerated at regeneration sites, and can then be routed to their destination at optical routing sites.
This topic is covered in two complementary files: the present article [E 7 079] and the following one
We review the various ways of multiplexing multiple signals, exploiting time, wavelength, polarization or spatial mode of propagation. We then review the operating principles and characteristics of optical amplifiers, whether based on stimulated emission in an erbium-doped fiber or Raman-stimulated emission, or both simultaneously.
We then review detection techniques, with particular emphasis on the one that has revolutionized the field of optical telecommunications since the end of the 2010s, namely coherent detection. We devote the final part of the article to performance evaluation criteria, discussing the areas of application, advantages and limitations of each. Some criteria are better suited to the characterization of individual components, others to the characterization of the complete system.
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KEYWORDS
optical fiber | optical amplification | multiplexing | optical transmission | optical detection
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High-speed optical communications
Bibliography
Software tools
Optilux, free software for simulating optical transmission systems http://www.optilux.sourceforge.net/
VPI transmission Maker TM , software suite for the simulation of optical components and systems, published by VPI photonics
Websites
Jean-Michel Jonathan, lecture at Institut d'Optique Graduate School Paris Tech, Guided wave optics – Lightwave http://www.paristech.institutoptique.fr/site.php?id=95=72
Events
Optical Fiber Communications Conference/National Fiber Optic Engineers Conference (OFC/NFOEC), an international conference held annually in the United States. http://www.ofcconference.org
European Conference on Optical Communications (ECOC) is an international conference held every September in a different European country....
Standards and norms
National Telecommunications Union, ITU http://www.itu.int/
- Interfaces for optical transport networks (OTN) http://www.itu.int/rec/T-REC-G.709/fr - ITU-T G.709 -
- Spectral grids for wavelength-division multiplexing applications: DWDM dense grid http://www.itu.int/rec/T-REC-G.694.1/fr - ITU-T G.694.1 -
Regulations
French regulatory authority for electronic communications and posts, ARCEP http://www.arcep.fr/
Directory
Manufacturers – Suppliers – Distributors (non-exhaustive list)
Alcatel-Lucent http://www.alcatel-lucent.com
Ciena http://www.ciena.fr/
Cisco Systems http://www.cisco.fr
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