Title :
Widely Tunable Parametric Amplification and Pulse Train Generation by Heating a Photonic Crystal Fiber
Author :
Kudlinski, Alexandre ; Mussot, Arnaud ; Habert, Rémi ; Sylvestre, Thibaut
Author_Institution :
Lab. PhLAM, IRCICA, Univ. Lille 1, Villeneuve-d´´Ascq, France
Abstract :
We describe a simple technique that allows for the achievement of widely tunable parametric generation in a photonic crystal fiber. This is achieved by heating the fiber and using a specific phase-matching condition in the normal dispersion regime which is highly sensitive to temperature. Experimental results show a sideband tunability of about 17 THz in the 800 nm and 1550 nm spectral bands by heating the fiber from room temperature to 500 , leading to a tuning rate of 34 . By adding a small tunable continuous-wave seed together with the pulsed pump, we further show the generation of sub-nanosecond pulses tunable around 800 nm through parametric amplification.
Keywords :
heat treatment; holey fibres; laser tuning; optical fibre dispersion; optical parametric amplifiers; optical phase matching; optical pulse generation; optical pumping; photonic crystals; heating; normal dispersion; phase-matching; photonic crystal fiber; pulse train generation; pulsed pumping; sideband tunability; sub-nanosecond pulse tuning; temperature 293 K to 773.15 K; tunable continuous-wave seed; tunable parametric amplification; tunable parametric generation; wavelength 1550 nm; wavelength 800 nm; Amplitude modulation; Fiber nonlinear optics; Optical pulses; Photonic crystal fibers; Temperature dependence; Fiber nonlinear optics; four-wave mixing;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2011.2173159
