The temporal Talbot effect and soliton propagation in an optical fiber were exploited to yield
a series of pulse train sources with tunable repetition rate simply through variation of the …

A 21.7-km nonzero dispersion-shifted fiber was used to obtain 4× multiplication of the
repetition rate of a 20-GHz train of 4.2-ps optical pulses through the temporal Talbot effect …

-5 Page 1 increase in the average value of the optical SNR in the experiments. The reason for
the increase in optical SNR is the polarisation hole burning (PHB) suppression effect [5]. -5 …

We demonstrate an all-optical scheme to multiply the repetition frequency of a high-rate
optical pulse train by using a spectral filter to remove unwanted frequency components. A …

A spectral line-by-line pulse shaper is used to experimentally generate and deliver~ 1 ps
optical pulses of 31~ 124 GHz repetition-rates over 25.33 km single-mode fiber without …

We numerically analyze and experimentally demonstrate an innovative and simple 40-GHz
source for 160-Gb/s optical time-division multiplexing. The source is based on nonlinear …

We demonstrate a simple approach for adjustable multiplication of optical pulses in a fiber
using the temporal Talbot effect. Binary electrical patterns are used to control the …

We experimentally demonstrate a novel optical beat-signal to soliton train conversion
technique based on multisoliton compression effects during propagation in a dispersion …

In this paper, we describe a novel method for generating a highly repetitive optical pulse
train using mode-locked pulses and the group-velocity dispersion (GVD) of optical fiber. An …

In this paper, we theoretically and experimentally study the generation of very high-repetition-
rate pulse sources based on multiple four-wave mixing in optical fibers. More precisely, we …