2003
DOI: 10.1364/ol.28.001948
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Efficient anti-Stokes generation through phase-matched four-wave mixing in higher-order modes of a microstructure fiber

Abstract: Phase-matched four-wave mixing in higher-order modes of microstructure fibers allows unprecedentedly high efficiencies of anti-Stokes frequency conversion to be achieved for subnanojoule femtosecond laser pulses. 70-fs pulses of 790-nm radiation were used to generate an anti-Stokes component at 520-530 nm in a higher-order mode of a microstructure fiber with a 4.8-microm core. The maximum ratio of the anti-Stokes signal energy to the energy of the pump component in the output spectrum is estimated as 1.7.

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Cited by 101 publications
(38 citation statements)
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“…The wavelength λ 0 of zero group-velocity dispersion for these modes lies close to the radiation wavelength of a Ti: sapphire laser (Fig. 7), which permits dispersion pulse spreading to be reduced and phase matching to be achieved for parametric four-wave mixing [20,21,27]. The mismatch of propagation constants δβ for the studied wave-mixing process as a function of the wavelength is shown in Fig.…”
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confidence: 71%
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“…The wavelength λ 0 of zero group-velocity dispersion for these modes lies close to the radiation wavelength of a Ti: sapphire laser (Fig. 7), which permits dispersion pulse spreading to be reduced and phase matching to be achieved for parametric four-wave mixing [20,21,27]. The mismatch of propagation constants δβ for the studied wave-mixing process as a function of the wavelength is shown in Fig.…”
mentioning
confidence: 71%
“…Supercontinuum generation in MS fibers [9][10][11] is now intensely used in optical frequency metrology [12,13], ultrafast photonics [14], spectroscopy [15], and biomedical optics [16]. MS fibers offer much flexibility in phase-matching third-harmonic generation [17] and fourwave mixing [18], permitting not only broadband emission, but also isolated spectral components [19][20][21] to be generated with a high efficiency. Microstructure-fiber frequency converters substantially enhance the capabilities of low-energy femtosecond lasers in photochemistry [22] and nonlinear spectroscopy [15].…”
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confidence: 99%
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“…Since the corresponding Stokes shift (210 cm −1 ) is much smaller than the Raman shift (440 cm −1 ), the stimulated process can be attributed to a phase-matched four-wave mixing (FWM) process. Efficient FWM generated in guided higher-order modes have been demonstrated in multimode microstructured silica fibers [7][8][9]. However, in such FWM the anti-Stokes and the Stokes pulses are generated in the same mode as the pump pulses so that no intermode energy conversion is encountered.…”
Section: Resultsmentioning
confidence: 99%
“…In addition, phasematched inter-bandgap FWM generation may play a role in the observed behavior (Rasmussen et al, 2008). Previously, intermodally phase-matched FWM (Stolen & Leibolt, 1976;Akimov et al, 2003) as well as third harmonic generation (Efimov & Taylor., 2005b) were observed in both regular fibers and PCFs. Inter-bandgap phase-matched FWM is a very similar process and thus appears likely to contribute to the generation mechanism.…”
Section: Solitons and Continuum Generation In All-glass Bandgap Pcfmentioning
confidence: 88%