The effect of long scale-length irradiation non-uniformities on the implosion of two different directly driven, gas filled shells (representative of large families of laser fusion targets) is studied by means of 2-D numerical fluid simulations. Quantitative results are given for parameters measuring the shell deformation and the azimuthal variation of the (density × radius) product (<ρR) as functions of the wavelength and of the amplitude of the irradiation non-uniformity. The reflection of the imploding shock wave is also qualitatively illustrated
Capsule implosion experiments carried out on the Nova laser are simulated with the three-dimensional...
The implosion of a family of reactor‐size targets for inertial confinement fusion (ICF) is studied a...
We consider a recently proposed target concept for laser-driven inertial confinement fusion (Gonchar...
Results from experiments that used shock waves generated by a high-power laser to simulate multi-dim...
An unstructured-grid, radiation-hydrodynamics code is used to simulate implosions. Although most of ...
The effect of long-wavelength irradiation nonuniformities on the performance of single-shell, reacto...
Two-dimensional Lagrangian hydrodynamics simulation techniques were used to study fluid instability ...
In this work we will present the first measurement of the time history of a collision of two shells ...
Shock induced symmetric compression has been studied in a spherical target. The shock induced interf...
Spherically expanding radiative shock waves have been observed from inertially confined implosion ex...
The large scale hydrodynamics of laser accelerated thin disks (foils) are studied numerically using ...
backlighter 1.2 mm diameter CH shell 30 bars D gas octahedrical irradiation 8 x 6 kJ, 5 ns OCTALIL ...
A series of laser fusion implosion experiments of plastic hollow shell targets was performed by usin...
Multidimensional hydrodynamic properties of high-adiabat direct-drive plastic-shell implosions on th...
A simple model of the ablative implosion of a high-aspect-ratio (shell radius to shell thickness rat...
Capsule implosion experiments carried out on the Nova laser are simulated with the three-dimensional...
The implosion of a family of reactor‐size targets for inertial confinement fusion (ICF) is studied a...
We consider a recently proposed target concept for laser-driven inertial confinement fusion (Gonchar...
Results from experiments that used shock waves generated by a high-power laser to simulate multi-dim...
An unstructured-grid, radiation-hydrodynamics code is used to simulate implosions. Although most of ...
The effect of long-wavelength irradiation nonuniformities on the performance of single-shell, reacto...
Two-dimensional Lagrangian hydrodynamics simulation techniques were used to study fluid instability ...
In this work we will present the first measurement of the time history of a collision of two shells ...
Shock induced symmetric compression has been studied in a spherical target. The shock induced interf...
Spherically expanding radiative shock waves have been observed from inertially confined implosion ex...
The large scale hydrodynamics of laser accelerated thin disks (foils) are studied numerically using ...
backlighter 1.2 mm diameter CH shell 30 bars D gas octahedrical irradiation 8 x 6 kJ, 5 ns OCTALIL ...
A series of laser fusion implosion experiments of plastic hollow shell targets was performed by usin...
Multidimensional hydrodynamic properties of high-adiabat direct-drive plastic-shell implosions on th...
A simple model of the ablative implosion of a high-aspect-ratio (shell radius to shell thickness rat...
Capsule implosion experiments carried out on the Nova laser are simulated with the three-dimensional...
The implosion of a family of reactor‐size targets for inertial confinement fusion (ICF) is studied a...
We consider a recently proposed target concept for laser-driven inertial confinement fusion (Gonchar...