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This paper discusses recent experiments demonstrating dramatic improvements in the tunability and power output of fiber optical parametric amplifiers constructed utilising both conventional fibers and photonic crystal fibers.
The first demonstration of error-free All-Optical Wavelength Conversion via Cross-Phase Modulation (XPM-AOWC) in a highly-nonlinear and low-TPA AlGaAs waveguide at 10Gb/s is reported, with a nonlinear phase shift of 0.16π.
We investigate the statistics of the gain fluctuations of a Raman fiber amplifier pumped with a temporally incoherent pump. We present a simple theory whose predictions are in good agreement with our numerical and experimental results.
We present an experimental investigation into the statistics of the gain fluctuations of a fiber optical parametric amplifier pumped with a temporally incoherent pump. These statistics are shown to be a strong function of signal detuning.
We report on the performance of a fiber optical parametric amplifier pumped with a temporally-incoherent pump. Parametric gain coefficients seven times higher than that of a coherently pumped amplifier are demonstrated.
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