A 3D cell-centered Lagrangian scheme applied to the simulation of 3D non-stationary Rayleigh–Taylor Instability in supernova remnants

article by G. Georges et al published December 2015 in High Energy Density Physics

All-optical programmable shaping of narrow-band nanosecond pulses with picosecond accuracy by use of adapted chirps and quadratic nonlinearities

scientific article published on 01 August 2001

Analytic criteria for shock ignition of fusion reactions in a central hot spot

Analytical Study of Supernova Remnant Non-Stationary Expansions

article by Xavier Ribeyre et al published July 2005 in Astrophysics and Space Science

Analytical criterion for shock ignition of fusion reaction in hot spot

Broadband computations using the Miro software

scholarly article published 23 July 1999

Collisionless Shocks Driven by Supersonic Plasma Flows with Self-Generated Magnetic Fields

scientific article published on 01 August 2019

Compressible Rayleigh–Taylor instabilities in supernova remnants

Compression phase study of the HiPER baseline target

Coupled hydrodynamic model for laser-plasma interaction and hot electron generation

scientific article published on 29 October 2015

Creation of persistent, straight, 2 mm long laser driven channels in underdense plasmas

Deleterious effects of nonthermal electrons in shock ignition concept

scientific article

Dense plasma heating and Gbar shock formation by a high intensity flux of energetic electrons

Dense plasma heating and shock wave generation by a beam of fast electrons

Design and optical characterization of a large continuous phase plate for Laser Integration Line and Laser Megajoule facilities.

scientific article

Electron–positron pairs beaming in the Breit–Wheeler process

article published in 2016

Experiment on laser interaction with a planar target for conditions relevant to shock ignition

Experimental results performed in the framework of the HIPER European Project

Experimental study of fast electron propagation in compressed matter

Fast ignitor target studies for HiPER

Fast ignitor target studies for the HiPER project

Fast ion ignition with ultra-intense laser pulses

Finite Mach number spherical shock wave, application to shock ignition

Gain curves and hydrodynamic modeling for shock ignition

Generation of high pressure shocks relevant to the shock-ignition intensity regime

Heating a plasma by a broadband stream of fast electrons: Fast ignition, shock ignition, and Gbar shock wave applications

HiPER laser: from capsule design to the laser reference design

scholarly article published 10 February 2011

Hydrodynamic and symmetry safety factors of HiPER's targets

article published in 2008

Hydrodynamic modeling and simulations of shock ignition thresholds

Influence of laser induced hot electrons on the threshold for shock ignition of fusion reactions

Investigation of laser plasmas relevant to shock ignition at PALS

Ion beam manufacturing of a graded-phase mirror for the generation of square "top hat" laser beams

Laboratory modeling of supersonic radiative jets propagation in plasmas and their scaling to astrophysical conditions

Large transmission 1ω and 3ω gratings for the LIL laser

article

Laser plasma interaction studies in the context of shock ignition—Transition from collisional to collisionless absorption

Laser plasma physics in shock ignition – transition from collisional to collisionless absorption

Laser-driven cylindrical compression of targets for fast electron transport study in warm and dense plasmas

article

Laser-driven shock waves studied by x-ray radiography

scientific article published on 14 June 2017

Linear and non-linear amplification of high-mode perturbations at the ablation front in HiPER targets

Modeling of the cross-beam energy transfer with realistic inertial-confinement-fusion beams in a large-scale hydrocode

scientific article published on 7 January 2015

Modeling of two-dimensional effects in hot spot relaxation in laser-produced plasmas

New opacity measurement principle for LMJ-PETAL laser facility

Non-Stationary Rayleigh-Taylor Instabilities in Pulsar Wind Interaction with a Supernova Shell

article by Xavier Ribeyre et al published 7 December 2006 in Astrophysics and Space Science

Non-stationary Rayleigh-Taylor instability in plerions

article by Xavier Ribeyre et al published June 2006 in European Physical Journal. Special Topics

Nonstationary Rayleigh-Taylor instability in supernova ejecta

Numerical simulations of the HiPER baseline target

Numerical simulations of the HiPER baseline target

Optimal conditions for shock ignition of scaled cryogenic deuterium–tritium targets

Pair creation in collision of γ-ray beams produced with high-intensity lasers ⬇️

scientific article published on 7 January 2016

Parametric instabilities study in a shock ignition relevant regime

Physics issues for shock ignition

Physics of laser-plasma interaction for shock ignition of fusion reactions

Preliminary results from recent experiments and future roadmap to Shock Ignition of Fusion Targets

Progress in the shock-ignition inertial confinement fusion concept

Radiation hydrodynamic theory of double ablation fronts in direct-drive inertial confinement fusion

Recent results from experimental studies on laser–plasma coupling in a shock ignition relevant regime

Relativistic hole boring and fast ion ignition with ultra-intense laser pulses

Response to “Comment on ‘Compressible Rayleigh–Taylor instabilities in supernova remnants’” [Phys. Fluids 17, 069101 (2005)]

Shock ignition of thermonuclear fuel: principles and modelling

Shock ignition: an alternative scheme for HiPER

Shock ignition: modelling and target design robustness

article published in 2009

Shock-ignition relevant experiments with planar targets on OMEGA

Simulations of the supersonic radiative jet propagation in plasmas

Spherical shock-ignition experiments with the 40 + 20-beam configuration on OMEGA

Spherical strong-shock generation for shock-ignition inertial fusiona)

Studies of supersonic, radiative plasma jet interaction with gases at the Prague Asterix Laser System facility

Studies on targets for inertial fusion ignition demonstration at the HiPER facility

Study of shock waves generation, hot electron production and role of parametric instabilities in an intensity regime relevant for the shock ignition

Studying ignition schemes on European laser facilities

Supersonic plasma jet interaction with gases and plasmas

Target design for shock ignition

The HiPER project for inertial confinement fusion and some experimental results on advanced ignition schemes

The control of hot-electron preheat in shock-ignition implosions

scientific article published in May 2018

The preplasma effect on the properties of the shock wave driven by a fast electron beam

The scalability of the accretion column in magnetic cataclysmic variables: the POLAR project

Tree code for collision detection of large numbers of particles applied to the Breit–Wheeler process

X-ray diagnostics of fast electrons propagation in high density plasmas obtained by cylindrical compression