Theoretical analysis of system limitation for AM-DD/NRZ optical transmission systems using in-line phase-sensitive amplifiers

Theoretical analysis of system limitation for AM-DD/NRZ optical transmission systems using in-line phase-sensitive amplifiers

This paper shows the theoretically derived performance of single channel, amplitude modulation/direct detection optical transmission systems using in-line optical phase-sensitive amplifiers (PSA's). The calculations take into account the degradation of the signal-to-noise power ratio (SNR) and...

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Veröffentlicht in:Journal of lightwave technology 1998-07, Vol.16 (7), p.1158-1170
Hauptverfasser: Imajuku, W., Takada, A.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Exact sciences and technology
Fiber nonlinear optics
Information, signal and communications theory
Intersymbol interference
Nonlinear optics
Optical distortion
Optical mixing
Optical modulation
Optical noise
Optical signal processing
Pulse amplifiers
Signal and communications theory
Signal processing
Signal representation. Spectral analysis
Signal, noise
Speech processing
Stimulated emission
Telecommunications and information theory
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Beschreibung
Zusammenfassung:This paper shows the theoretically derived performance of single channel, amplitude modulation/direct detection optical transmission systems using in-line optical phase-sensitive amplifiers (PSA's). The calculations take into account the degradation of the signal-to-noise power ratio (SNR) and intersymbol interference (ISI) due to the distortion of transmitted signal pulses. The SNR is analyzed by considering not only amplifier noise and fiber loss but also noise enhancement by four-wave mixing in the transmission fiber. The ISI is estimated by eye-pattern degradation of the transmitted signal numerically calculated using the nonlinear Schrodinger equation. The regenerative repeater spacing of in-line PSA systems limited by SNR and ISI can be expanded by approximately 3 to 10 times that of in-line EDFA systems, in the case of |D|/spl les/0.1 ps/mn/km dispersion fiber systems transmitting a 40-Gb/s signal.
ISSN:0733-8724
1558-2213
DOI:10.1109/50.701394