Add to ORKGAbstract: The algorithm for the computation of self-consistent atomic potential in INFERNO model is considered. The proposed method allows to take into account the detailed structure of shape resonances that leads to a smooth behaviour of thermodinamic functions under pressure ionization. Calculations of uranium equation of state are performed in a wide range of temperatures and densities. The calculated Hugoniot adiabat is compared with experimental data.Note: Research direction:Mathematical modelling in actual problems of science and technic
The shock Hugoniot equation of state for thorium has been computed, using the pseudopotential method...
International audienceA statistical physics approach is used to calculate the thermodynamic function...
The paper presents a model for liquid uranium dioxide, obtained by improving a simplified ionic mode...
Abstract: Calculation of pressure by using the INFERNO model is discussed. It is shown tha...
In the frame of the CAPRA project, fast reactor designs suitable for plutonium burning are presently...
Abstract: A self-consistent hydrogen-like average atom model is proposed. The hydrogen-lik...
A review of the thermochemical data for the vaporization of the oxides and carbides of uranium was m...
AbstractThe equation of state (EOS) of fissile materials under extreme thermodynamic conditions is o...
Tables of temperature dependent coefficients are presented for the computation of thermodynamic prop...
Rapid laser heating is an important experimental technique to achieve extreme conditions for uranium...
Constant-volume quantum molecular dynamics (QMD) simulations of uranium (U) have been carried out ov...
The vapour pressure of uranium was determined between 1720 and 2340°K: -log Pu(atm) = (26,210 ± 270)...
The paper presents a model for liquid uranium dioxide, obtained by improving a simplified ionic mode...
The paper presents a model for liquid uranium dioxide, obtained by improving a simplified ionic mode...
The paper presents a model for liquid uranium dioxide, obtained by improving a simplified ionic mode...
The shock Hugoniot equation of state for thorium has been computed, using the pseudopotential method...
International audienceA statistical physics approach is used to calculate the thermodynamic function...
The paper presents a model for liquid uranium dioxide, obtained by improving a simplified ionic mode...
Abstract: Calculation of pressure by using the INFERNO model is discussed. It is shown tha...
In the frame of the CAPRA project, fast reactor designs suitable for plutonium burning are presently...
Abstract: A self-consistent hydrogen-like average atom model is proposed. The hydrogen-lik...
A review of the thermochemical data for the vaporization of the oxides and carbides of uranium was m...
AbstractThe equation of state (EOS) of fissile materials under extreme thermodynamic conditions is o...
Tables of temperature dependent coefficients are presented for the computation of thermodynamic prop...
Rapid laser heating is an important experimental technique to achieve extreme conditions for uranium...
Constant-volume quantum molecular dynamics (QMD) simulations of uranium (U) have been carried out ov...
The vapour pressure of uranium was determined between 1720 and 2340°K: -log Pu(atm) = (26,210 ± 270)...
The paper presents a model for liquid uranium dioxide, obtained by improving a simplified ionic mode...
The paper presents a model for liquid uranium dioxide, obtained by improving a simplified ionic mode...
The paper presents a model for liquid uranium dioxide, obtained by improving a simplified ionic mode...
The shock Hugoniot equation of state for thorium has been computed, using the pseudopotential method...
International audienceA statistical physics approach is used to calculate the thermodynamic function...
The paper presents a model for liquid uranium dioxide, obtained by improving a simplified ionic mode...