Add to ORKGWe will present recent developments in the calculation of opacity and equation of state tables suitable for including in the radiation hydrodynamic code ARWEN [1] to study processes like ICF or X-ray secondary sources. For these calculations we use the code BiG BART to compute opacities in LTE conditions, with self-consistent data generated with the Flexible Atomic Code (FAC) [2]. Non-LTE effects are approximately taken into account by means of the improved RADIOM model [3], which makes use of existing LTE data tables. We use the screened-hydrogenic model [4] to derive the Equation of State using the population and energy of the levels avaliable from the atomic dat
For high temperatures and densities, stellar opacities obtained from the Opacity Project (OP) were s...
This book is devoted to the calculation of hot-plasma properties which generally requires a huge num...
The revision of the standard Los Alamos opacities in the 1980–1990s by a group from the Lawren...
This work presents recent developments in the calculation of opacity and equation of state tables su...
We will present calculations of opacities for matter under LTE conditions. Opacities are needed in r...
We will present recent developments in the calculation of opacity tables suitable for including in t...
The accurate computation of radioactive opacities is needed in several research fields such as astro...
The widely used theoretical models for calculating properties of hot dense matter are studied in thi...
Radiative properties of hot dense plasmas remain a subject of current interest since they play an im...
International audienceMethods using average‐atom models in order to calculate dense‐plasma opacities...
Plasma opacity calculations play an important role in solar modelling and many plasma physics and in...
The accurate computation of radiative opacities is basic in the ICF target physics analysis, in whic...
In this work we obtain analytical expressions for the radiative opacity of several low Z plasmas (He...
We present some results of our opacity calculations for lead and gold at temperatures and densities ...
The study of matter under conditions of high density, pressure, and temperature is a valuable subjec...
For high temperatures and densities, stellar opacities obtained from the Opacity Project (OP) were s...
This book is devoted to the calculation of hot-plasma properties which generally requires a huge num...
The revision of the standard Los Alamos opacities in the 1980–1990s by a group from the Lawren...
This work presents recent developments in the calculation of opacity and equation of state tables su...
We will present calculations of opacities for matter under LTE conditions. Opacities are needed in r...
We will present recent developments in the calculation of opacity tables suitable for including in t...
The accurate computation of radioactive opacities is needed in several research fields such as astro...
The widely used theoretical models for calculating properties of hot dense matter are studied in thi...
Radiative properties of hot dense plasmas remain a subject of current interest since they play an im...
International audienceMethods using average‐atom models in order to calculate dense‐plasma opacities...
Plasma opacity calculations play an important role in solar modelling and many plasma physics and in...
The accurate computation of radiative opacities is basic in the ICF target physics analysis, in whic...
In this work we obtain analytical expressions for the radiative opacity of several low Z plasmas (He...
We present some results of our opacity calculations for lead and gold at temperatures and densities ...
The study of matter under conditions of high density, pressure, and temperature is a valuable subjec...
For high temperatures and densities, stellar opacities obtained from the Opacity Project (OP) were s...
This book is devoted to the calculation of hot-plasma properties which generally requires a huge num...
The revision of the standard Los Alamos opacities in the 1980–1990s by a group from the Lawren...