Plasma induced pulse breaking in filamentary self-compression

C. Brée; Ayhan Demircan; Stefan Skupin; L. Bergé; G. Steinmeyer;C. Brée;Ayhan Demircan;Stefan Skupin;L. Bergé;G. Steinmeyer;

doi:10.1134/s1054660x1009029x

Plasma induced pulse breaking in filamentary self-compression

Clicks: 180

ID: 268432

2010

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Abstract

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A plasma induced temporal break-up in filamentary propagation has recently been identified as one of the key events in the temporal self-compression of femtosecond laser pulses. An analysis of the Nonlinear Schrödinger Equation coupled to a noninstantaneous plasma response yields a set of stationary states. This analysis clearly indicates that the emergence of double-hump, characteristically asymmetric temporal on-axis intensity profiles in regimes where plasma defocusing saturates the optical collapse caused by Kerr self-focusing is an inherent property of the underlying dynamical model.

Reference Key	steinmeyer2010laserplasma Use this key to autocite in the manuscript while using SciMatic Manuscript Manager or Thesis Manager
Authors	C. Brée,Ayhan Demircan,Stefan Skupin,L. Bergé,G. Steinmeyer;C. Brée;Ayhan Demircan;Stefan Skupin;L. Bergé;G. Steinmeyer;
Journal	laser physics
Year	2010
DOI	10.1134/s1054660x1009029x Searching for DOI...
URL	https://sciprofiles.com/publication/view/9ca58e0b045b0e260fbdd351a98605f4 https://doi.org/10.1134/s1054660x1009029x
Keywords	Plasma model compression nonlinear pulse axis break kerr filamentary schrödinger

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