55 research outputs found
Spectrum to distance mapping via nonlinear Airy pulses
We theoretically and experimentally study the phenomena related to self-phase modulation of Airy pulses in fibers. During nonlinear evolution, most spectral components of the Airy pulses concentrate into one or two peaks for normal and anomalous dispersion, respectively. The resulting peaks self-shift along the propagation, effectively mapping the longitudinal coordinate into the frequency domain. The frequency shift can be precisely controlled by simply acting on the spectral cubic phase structure without the need to alter the fiber length
640 Gbit/s return-to-zero to non-return-to-zero format conversion based on optical linear spectral phase filtering
Bit-rate-transparent optical RZ-to-NRZ format conversion based on linear spectral phase filtering
TRANSFORM METHODS FOR AN ECONOMIC ANALYSIS OF PROBABILISTIC CASH FLOWS.
Abstract not availabl
Amplitude and timing jitter analysis of periodic phase filters for optical pulse rate multiplication
Real-time group-delay monitoring of ultra-broadband dispersive devices by incoherent light interferometry
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