Abstract
The usual physical picture of supercontinuum SC generation changes profoundly when high power long pulses are injected into a photonic crystal fiber PCF which exhibits two zero dispersion wavelengths ZDWs. Besides the thermalized central part of the incoherent SC spectrum, the analysis reveals that the Raman effect is responsible for the generation of spectral incoherent solitons SIS [1 ] in the low-frequency edge of the spectrum [2,3]. We recall that, contrary to conventional solitons, SISs do not exhibit a localization in the spatio-temporal domain, but exclusively in the frequency domain [1]. In the experiment we made use of a commercial high-power pump delivering 660-ps pulses at 1064 nm. We report in Fig. 1(a the evolutio n of the spectrum of the PCF manufactured by IRCICA. We performed simulations with different models: i the generalized nonlinear Schrödinger equation GNLSE which is in good agreement with the experiment al results, ii a reduced nonlinear Schrödinger equation RNLSE which solely accounts for the Raman effect, and ii i the weak Langmuir turbulence kinetic equation KE [1]. Here, the seed of the SIS is provided by the modulation instability MI) band at −65THz. The experimental behavior of SISs in the low-frequency edge of the SC spectrum is in qualitative agreement with the corresponding simulations of the RNLSE see Fig.1 a-b.
© 2013 IEEE
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