Signal-to-noise ratio of modulated sources of ASE transmitted over dispersive fiber

G.J. Pendock; David Sampson

doi:10.1109/68.593380

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Journal article

Signal-to-noise ratio of modulated sources of ASE transmitted over dispersive fiber

G.J. Pendock and David Sampson

IEEE Photonics Technology Letters, Vol.9(7), pp.1002-1004

1997

DOI: https://doi.org/10.1109/68.593380

Abstract

Optical fiber communication

Optical fiber dispersion

Optical noise

Optical propagation in dispersive media

Spontaneous emission

Amplified spontaneous emission (ASE)

Dispersive fibers

Electromagnetic dispersion

Fiber optics

Light emission

Light modulation

Light transmission

Optical fibers

Signal to noise ratio

Optical communication

We investigate, both theoretically and experimentally, the signal-to-noise ratio (SNR) of modulated amplified spontaneous emission (ASE) transmitted over dispersive fiber. We observe two significant effects; firstly, the signal-to-excess-noise ratio (SNR ex) varies across the pulse reaching its maximum value near the peak of the detected signal; and secondly, this maximum value decreases with increasing fiber dispersion-induced pulse broadening. Accurate calculation of transmission performance of high bit-rate optical communication systems employing ASE sources, such as spectrum slicing, requires inclusion of these effects.

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Title: Signal-to-noise ratio of modulated sources of ASE transmitted over dispersive fiber
Creators: G.J. Pendock
David Sampson
Publication Details: IEEE Photonics Technology Letters, Vol.9(7), pp.1002-1004
Number of pages: 3
Date published: 1997
Date submitted: 01/06/2018
Identifiers: 99513150702346
Academic Unit: FEPS Central Faculty Admin; FHMS Central Faculty Admin
Resource Type: Journal article

Signal-to-noise ratio of modulated sources of ASE transmitted over dispersive fiber

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