Discrepancies exist between theoretical and experimental opacity data for iron, at temperatures 180⁻195 eV and electron densities near 3 × 1022/cm3, relevant to the solar radiative-convective boundary. Another discrepancy, between theory and helioseismic measurements of the boundary’s location, would be ameliorated if the experimental opacity is correct. To address these issues, this paper details the first results from new experiments under development at the National Ignition Facility (NIF), using a different method to replicate the prior experimental conditions. In the NIF experiments, 64 laser beams indirectly heat a plastic-tamped rectangular iron-magnesium sample inside a gold cavity. Another 64 beams implode a spheri...
International audienceOpacity is an important ingredient of the evolution of stars. The calculation ...
In various astrophysical observations, the n = 2 → 3 transitions of highly charged iron appear in th...
The distorted wave extension of the autostructure code has been used to calculate energy levels, rad...
Discrepancies exist between theoretical and experimental opacity data for iron, at temperatures 180&...
A major problem in stellar modelling is the discrepancy between solar models and helioseismology dat...
The temporal evolution of the opacity of an iron plasma at high temperature (30–350 eV) and high den...
The advances achieved using X-ray Free Electron Lasers such as the Linac Coherent Light Source (LCLS...
The time-integrated x-ray emission from a hot, dense iron plasma has been recorded. The iron plasma ...
Aluminium Kα emission (1.5 keV) produced by an 8 J, 500 ps, Nd:glass laser incident at 45° onto a la...
Experimentally observed x-ray scattering from warm dense samples of iron has been achieved for the f...
The authors have conducted a systematic study of the dominant x-ray line emission from Fe XVII. Thes...
International audienceTaking advantage of the new opportunities provided by x-ray free electron lase...
In order to provide benchmark data for models used to interpret X-ray astronomy data from newly-laun...
Acceleration of particles from the interaction of ultra-intense laser pulses of 1021 W/cm2 level wit...
International audienceOpacity is an important ingredient of the evolution of stars. The calculation ...
In various astrophysical observations, the n = 2 → 3 transitions of highly charged iron appear in th...
The distorted wave extension of the autostructure code has been used to calculate energy levels, rad...
Discrepancies exist between theoretical and experimental opacity data for iron, at temperatures 180&...
A major problem in stellar modelling is the discrepancy between solar models and helioseismology dat...
The temporal evolution of the opacity of an iron plasma at high temperature (30–350 eV) and high den...
The advances achieved using X-ray Free Electron Lasers such as the Linac Coherent Light Source (LCLS...
The time-integrated x-ray emission from a hot, dense iron plasma has been recorded. The iron plasma ...
Aluminium Kα emission (1.5 keV) produced by an 8 J, 500 ps, Nd:glass laser incident at 45° onto a la...
Experimentally observed x-ray scattering from warm dense samples of iron has been achieved for the f...
The authors have conducted a systematic study of the dominant x-ray line emission from Fe XVII. Thes...
International audienceTaking advantage of the new opportunities provided by x-ray free electron lase...
In order to provide benchmark data for models used to interpret X-ray astronomy data from newly-laun...
Acceleration of particles from the interaction of ultra-intense laser pulses of 1021 W/cm2 level wit...
International audienceOpacity is an important ingredient of the evolution of stars. The calculation ...
In various astrophysical observations, the n = 2 → 3 transitions of highly charged iron appear in th...
The distorted wave extension of the autostructure code has been used to calculate energy levels, rad...