International audienceBlast-wave-driven hydrodynamic instabilities are studied in the presence of a background B-field through experiments and simulations in the high-energy-density (HED) physics regime. In experiments conducted at the Laboratoire pour l’utilisation des lasers intenses (LULI), a laser driven shock-tube platform was used to generate a hydrodynamically unstable interface with a prescribed sinusoidal surface perturbation, and short-pulse x-ray radiography was used to characterize the instability growth with and without a 10-T B-field. The LULI experiments were modeled in FLASH using resistive and ideal magnetohydrodynamics (MHD), and comparing the experiments and simulations suggests that the Spitzer model implemented in FLASH...
The first part of this thesis investigates the growth of ion density perturbations in large-amplitud...
This paper shows results from experiments diagnosing the development of the Rayleigh–Taylor instabil...
In this paper we discuss the magnetic field self generation, via the so-called Biermann battery effe...
International audienceBlast-wave-driven hydrodynamic instabilities are studied in the presence of a ...
We report the results of benchmark FLASH magnetohydrodynamic (MHD) simulations of experiments conduc...
We summarize recent additions and improvements to the high energy density physics capabilities in FL...
The physics of compressible turbulence in high energy density (HED) plasmas is an unchartered experi...
Recent experiments using proton backlighting of laser-foil interactions provide unique opportunities...
The research discussed in this thesis represents work toward the demonstration of experimental desig...
Hydrodynamic instabilities affect a vast range of length scales in High Energy Density (HED) systems...
International audienceLaser experiments are becoming established as tools for astronomical research ...
A model experiment of magnetic field amplification (MFA) via the Richtmyer-Meshkov instability (RMI)...
Plasma-magnetic field interactions are typically unstable. Under certain circumstances, the plasma c...
When intense short-pulse laser beams (I > 1022 W/m2, τ < 20 ps) interact with high density plasmas, ...
The first part of this thesis investigates the growth of ion density perturbations in large-amplitud...
This paper shows results from experiments diagnosing the development of the Rayleigh–Taylor instabil...
In this paper we discuss the magnetic field self generation, via the so-called Biermann battery effe...
International audienceBlast-wave-driven hydrodynamic instabilities are studied in the presence of a ...
We report the results of benchmark FLASH magnetohydrodynamic (MHD) simulations of experiments conduc...
We summarize recent additions and improvements to the high energy density physics capabilities in FL...
The physics of compressible turbulence in high energy density (HED) plasmas is an unchartered experi...
Recent experiments using proton backlighting of laser-foil interactions provide unique opportunities...
The research discussed in this thesis represents work toward the demonstration of experimental desig...
Hydrodynamic instabilities affect a vast range of length scales in High Energy Density (HED) systems...
International audienceLaser experiments are becoming established as tools for astronomical research ...
A model experiment of magnetic field amplification (MFA) via the Richtmyer-Meshkov instability (RMI)...
Plasma-magnetic field interactions are typically unstable. Under certain circumstances, the plasma c...
When intense short-pulse laser beams (I > 1022 W/m2, τ < 20 ps) interact with high density plasmas, ...
The first part of this thesis investigates the growth of ion density perturbations in large-amplitud...
This paper shows results from experiments diagnosing the development of the Rayleigh–Taylor instabil...
In this paper we discuss the magnetic field self generation, via the so-called Biermann battery effe...