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 …

Generation of high-repetition-rate near-transform-limited soliton pulse trains using soliton
compression of the beat signal between two CW lasers has shown promise as a source.[1-5] …

58-2 Page 1 above result, agrees with a previous reported result [4]. The delay difference 1,.,,,,
was 1l3.6ns at 25C and the variation of 'i:,,,,, was ~l.2ns. The thermal coefficient of the delay …

I show how removal of the central optical frequencies from the output of an externally phase-
modulated, single-frequency laser results in a dual-wavelength source of high-quality pulse …

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

-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 …

With the chirp compression and soliton compression, the 10 GHz 1.6 ps optical pulses with
84 fs timing jitter are generated, which have the characteristics of simple system …

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 simple, stable, and tunable optical pulse source emitting 3.2 ps pulses at a 10 GHz
repetition rate is presented. The pulses are obtained through soliton-assisted time-lens …

We describe a highly flexible ultrashort optical pulse source capable of generating duration-
tunable pulses at single or multiple wavelengths. The technique we report is based on the …