The calculation of the laser absorption is very important for implosion simulations to capture precisely its dynamics. In many implosion simulations, the laser absorption is computed by the use of ray tracing. However, the conventional ray tracing method has the problem that it generates a non-physical absorption distribution because it represents a laser beam by a finite number of rays. Such a non-physical distribution on the target surface could be numerical perturbations that grow drastically due to Rayleigh-Taylor instability. An enormous number of rays are required to avoid such a non-physical distribution. This results in high computational costs. Thus, we have developed a new method of ray tracing that essentially generates no non-ph...
Après avoir rappelé les concepts sur lesquels se fonde l'implosion par laser, on décrit les processu...
A 3-D ray based model for computing laser fields in dissipative and amplifying media is presented. T...
Integrated hydrodynamics simulations of inertial confinement fusion rely on reduced physics models. ...
An unstructured-grid, radiation-hydrodynamics code is used to simulate implosions. Although most of ...
A novel approach to efficiently model 3-D laser plasma interactions at fluid scales is presented. Th...
The Rayleigh-Taylor instability occurs at the interface between two fluids, where one fluid is signi...
A 3D ray-tracing code has been developed to simulate the x-rays ([MATH]) produced in recent experime...
We report on the results of a recent experiment at the Rutherford Appleton Laboratory investigat...
We report on the results of a recent experiment at the Rutherford Appleton Laboratory investigat...
Laser guided discharges are demonstrated to have important applications to rapid heating of gases an...
Three non-equilibrium photoionisation algorithms for hydrodynamical grid-based simulation codes are ...
We present the simulations of two relevant hydrodynamical problems related to astrophysical phenomen...
Radiation-hydrodynamics deals with the dynamical interaction between gas and radiation. Its applicat...
A new one-dimensional hydrodynamic code for simulation of experiments involving the creation of high...
A one-component one-dimensional (X-1 D) hydrodynamic model has been developed to describe the expans...
Après avoir rappelé les concepts sur lesquels se fonde l'implosion par laser, on décrit les processu...
A 3-D ray based model for computing laser fields in dissipative and amplifying media is presented. T...
Integrated hydrodynamics simulations of inertial confinement fusion rely on reduced physics models. ...
An unstructured-grid, radiation-hydrodynamics code is used to simulate implosions. Although most of ...
A novel approach to efficiently model 3-D laser plasma interactions at fluid scales is presented. Th...
The Rayleigh-Taylor instability occurs at the interface between two fluids, where one fluid is signi...
A 3D ray-tracing code has been developed to simulate the x-rays ([MATH]) produced in recent experime...
We report on the results of a recent experiment at the Rutherford Appleton Laboratory investigat...
We report on the results of a recent experiment at the Rutherford Appleton Laboratory investigat...
Laser guided discharges are demonstrated to have important applications to rapid heating of gases an...
Three non-equilibrium photoionisation algorithms for hydrodynamical grid-based simulation codes are ...
We present the simulations of two relevant hydrodynamical problems related to astrophysical phenomen...
Radiation-hydrodynamics deals with the dynamical interaction between gas and radiation. Its applicat...
A new one-dimensional hydrodynamic code for simulation of experiments involving the creation of high...
A one-component one-dimensional (X-1 D) hydrodynamic model has been developed to describe the expans...
Après avoir rappelé les concepts sur lesquels se fonde l'implosion par laser, on décrit les processu...
A 3-D ray based model for computing laser fields in dissipative and amplifying media is presented. T...
Integrated hydrodynamics simulations of inertial confinement fusion rely on reduced physics models. ...