In this article optical minimum-shift keying (MSK) modulation format in 9×40 Gbit/s wavelength-division multiplexing
(WDM) spacing of 100 GHz transmission systems is investigated and compared with return-to-zero differential
phase-shift keying (RZ-DPSK) and return-to-zero (RZ). The performance of optical MSK in presence of amplification
noise, chromatic dispersion and nonlinear effects is analytically determined. Operations over a wide range of parameters,
such as span input power, precompensation value, and chromatic dispersion parameter are performed; experimental
results show that optical MSK demonstrates special performance in transmission distance, nonlinear effects, and
dispersion tolerance.
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