### Session NO6: Laser-Plasma Coupling at Long Scale Length

9:30 AM–12:18 PM, Wednesday, November 14, 2007
Rosen Centre Hotel Room: Salon 5/6

Chair: Robert Kirkwood, Lawrence Livermore National Laboratory

Abstract ID: BAPS.2007.DPP.NO6.11

### Abstract: NO6.00011 : White light Parametric Instabilities

11:30 AM–11:42 AM

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#### Author:

L. Silva
(GoLP)

Different techniques capable of describing the propagation and modulation instability of partially coherent/incoherent white'' light in nonlinear media are based on the paraxial wave approximation. In general, this approach is not valid for instabilities associated with the partially reflected backscattered radiation critical in many laser-plasma scenarios, such as ICF or fast ignition, and astrophysical scenarios. Inclusion of bandwidth/incoherence effects in laser driven parametric instabilities in plasmas can be described, for forward scattering by the standard Wigner-Moyal formalism, or by a generalized Wigner-Moyal statistical theory of radiation, or generalized photon kinetics, formally equivalent to the full wave equation, valid for partially coherent electromagnetic wave propagation in nonlinear dispersive and diffractive media. With this approach a generalized dispersion relation for Stimulated Raman Scattering driven by a partially coherent pump field has been derived, revealing a marked difference between backscattering (three-wave process), and direct forward scattering (four-wave process). This qualitative difference illustrates a fundamental difference between these two processes. The results, which generalize the classic results for plane wave pumps, demonstrate the possibility to control the growth rates of these instabilities by properly using broadband pump radiation fields.

To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2007.DPP.NO6.11