In the framework of the inertial confinement fusion, a pellet filled with the deuterium-tritium fuel is imploded, either through laser irradiation (direct drive, laser – low atomic number target interaction) or by the black body radiation from a cavity converting the laser radiation (indirect drive, laser – high atomic number target interaction).In both cases, a correct modeling of the electron transport is of first importance in order to have predictive hydro-radiative simulations. Nonetheless, it has been shown early on that the hypothesis of the linear transport are not valid in the framework of a solid target irradiated by a high power laser (I~1014 W/cm²). This is due in part to very steep temperature gradients (kinetic effects, so-cal...
Le travail exposé dans le manuscrit s’inscrit dans l’étude de la reconnexion magnétique (MR) indui...
In the interaction of high-power laser beams with solid density plasma there are a number of mechani...
We studied the coupling between a laser produced plasmas and a magnetic field in two cases: 1) in th...
In the framework of the inertial confinement fusion, a pellet filled with the deuterium-tritium fuel...
In indirect-drive inertial-fusion experiments, a hohlraum converts laser energy into X-rays that hea...
The applicability of classical (Braginskii) transport theory [1] to laser plasma interactions is cru...
This thesis is a numerical study of the magnetic reconnection in collisionless plasmas using a kinet...
Inertial confinement fusion experiments using laser beams have reported the emission of hot electron...
International audienceCorrect modeling of the electron-energy transport is essential for inertial co...
Reliable simulations of laser–target interaction on the macroscopic scale are burdened by the fact t...
The thesis is addressed to the study of physical issues related to the “Shock Ignition” (SI) approac...
The work presented in this thesis investigates energy transport in laser irradiated solid targets co...
The application of magnetic fields in inertial fusion experiments has led to renewed interest in fu...
This PhD work is in the context of research into fusion by inertial confinement. It concerns more pa...
The general context of this study is the Inertial Confinement for thermonuclear controlled fusion an...
Le travail exposé dans le manuscrit s’inscrit dans l’étude de la reconnexion magnétique (MR) indui...
In the interaction of high-power laser beams with solid density plasma there are a number of mechani...
We studied the coupling between a laser produced plasmas and a magnetic field in two cases: 1) in th...
In the framework of the inertial confinement fusion, a pellet filled with the deuterium-tritium fuel...
In indirect-drive inertial-fusion experiments, a hohlraum converts laser energy into X-rays that hea...
The applicability of classical (Braginskii) transport theory [1] to laser plasma interactions is cru...
This thesis is a numerical study of the magnetic reconnection in collisionless plasmas using a kinet...
Inertial confinement fusion experiments using laser beams have reported the emission of hot electron...
International audienceCorrect modeling of the electron-energy transport is essential for inertial co...
Reliable simulations of laser–target interaction on the macroscopic scale are burdened by the fact t...
The thesis is addressed to the study of physical issues related to the “Shock Ignition” (SI) approac...
The work presented in this thesis investigates energy transport in laser irradiated solid targets co...
The application of magnetic fields in inertial fusion experiments has led to renewed interest in fu...
This PhD work is in the context of research into fusion by inertial confinement. It concerns more pa...
The general context of this study is the Inertial Confinement for thermonuclear controlled fusion an...
Le travail exposé dans le manuscrit s’inscrit dans l’étude de la reconnexion magnétique (MR) indui...
In the interaction of high-power laser beams with solid density plasma there are a number of mechani...
We studied the coupling between a laser produced plasmas and a magnetic field in two cases: 1) in th...