An all-fiber optical oscillator based on three nonlinear processes, namely stimulated Raman scattering and broadband and narrow-band optical parametric amplification, is presented and experimentally characterized. The wavelength tuning is achieved by means of the time-dispersion technique and spans over 160 nm. Through the same technique a fast tunable optical frequency comb has been realized exploiting cascaded four-wave mixing. (C) 2013 Optical Society of America
Widely time-dispersion-tuned fiber optical oscillator and frequency comb based on multiple nonlinear processes
Chiarello, F.;
2013-01-01
Abstract
An all-fiber optical oscillator based on three nonlinear processes, namely stimulated Raman scattering and broadband and narrow-band optical parametric amplification, is presented and experimentally characterized. The wavelength tuning is achieved by means of the time-dispersion technique and spans over 160 nm. Through the same technique a fast tunable optical frequency comb has been realized exploiting cascaded four-wave mixing. (C) 2013 Optical Society of America
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