Applied Sciences (Dec 2018)

Incoherent Shock and Collapse Singularities in Non-Instantaneous Nonlinear Media

  • Gang Xu,
  • Adrien Fusaro,
  • Josselin Garnier,
  • Antonio Picozzi

DOI
https://doi.org/10.3390/app8122559
Journal volume & issue
Vol. 8, no. 12
p. 2559

Abstract

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We study the dynamics of a partially incoherent optical pulse that propagates in a slowly responding nonlinear Kerr medium. We show that irrespective of the sign of the dispersion (either normal or anomalous), the incoherent pulse as a whole exhibits a global collective behavior characterized by a dramatic narrowing and amplification in the strongly non-linear regime. The theoretical analysis based on the Vlasov formalism and the method of the characteristics applied to a reduced hydrodynamic model reveal that such a strong amplitude-incoherent pulse originates in the existence of a concurrent shock-collapse singularity (CSCS): The envelope of the intensity of the random wave exhibits a collapse singularity, while the momentum exhibits a shock singularity. The dynamic behavior of the system after the shock-collapse singularity is characterized through the analysis of the phase-space dynamics.

Keywords