Femtosecond Enhancement Cavities in the Nonlinear Regime

We combine high-finesse optical resonators and spatial-spectral interferometry to a highly phase-sensitive investigation technique for nonlinear light-matter interactions. We experimentally validate an ab initio model for the nonlinear response of a resonator housing a gas target, permitting the glo...

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Veröffentlicht in:	Physical review letters 2015-07, Vol.115 (2), p.023902, Article 023902
Hauptverfasser:	Holzberger, S, Lilienfein, N, Carstens, H, Saule, T, Högner, M, Lücking, F, Trubetskov, M, Pervak, V, Eidam, T, Limpert, J, Tünnermann, A, Fill, E, Krausz, F, Pupeza, I
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Sprache:	eng
Schlagworte:	Conversion Femtosecond Harmonic generations Holes Housing Mathematical models Nonlinearity Optimization
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container_title	Physical review letters
container_volume	115
creator	Holzberger, S Lilienfein, N Carstens, H Saule, T Högner, M Lücking, F Trubetskov, M Pervak, V Eidam, T Limpert, J Tünnermann, A Fill, E Krausz, F Pupeza, I
description	We combine high-finesse optical resonators and spatial-spectral interferometry to a highly phase-sensitive investigation technique for nonlinear light-matter interactions. We experimentally validate an ab initio model for the nonlinear response of a resonator housing a gas target, permitting the global optimization of intracavity conversion processes like high-order harmonic generation. We predict the feasibility of driving intracavity high-order harmonic generation far beyond intensity limitations observed in state-of-the-art systems by exploiting the intracavity nonlinearity to compress the pulses in time.
doi_str_mv	10.1103/PhysRevLett.115.023902
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subjects	Conversion Femtosecond Harmonic generations Holes Housing Mathematical models Nonlinearity Optimization
title	Femtosecond Enhancement Cavities in the Nonlinear Regime
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