Add to ORKGThe internal energy of high-density hydrogen plasmas in the temperature range $T = 10,000 ... 50,000 K$ is calculated by two different analytical approximation schemes (method of effective ion-ion interaction potential - EIIP and Pad\'e approach within the chemical picture - PACH) and compared with path integral Monte Carlo results. Reasonable agreement between the results obtained from the three independent calculations is found, the reasons for still existing differences is investigated. Interesting high density phenomena such as the formation of clusters and the onset of crystallization are discussed
The thermodynamic properties and transport coefficients of non-ideal, high-density hydrogen plasma ...
The thermodynamic properties and transport coefficients of non-ideal, high-density hydrogen plasma ...
10 pagesInternational audienceWe consider the hydrogen quantum plasma in the Saha regime, where it a...
The internal energy and equation of state of dense hydrogen are investigated by direct path integral...
The aim of this Ph.D. thesis is the study of high pressure hydrogen phases, by means of Monte Carlo ...
We compute thermodynamical properties of a low-density hydrogen gas within the physical picture, in ...
We compute thermodynamical properties of a low-density hydrogen gas within the physical picture, in ...
We compute thermodynamical properties of a low-density hydrogen gas within the physical picture, in ...
We compute thermodynamical properties of a low-density hydrogen gas within the physical picture, in ...
The temperature equilibration rate in dense hydrogen (for both T{sub i} > T{sub e} and T{sub i} &...
In this paper we study thermodynamic properties of hydrogen and hydrogen-helium mixtures with the he...
We present a new Monte Carlo method which couples Path Integral for finite temperature protons with ...
We study hydrogen in the Saha regime, within the physical picture in terms of a quantum proton-elect...
We survey the phase diagram of high-pressure molecular hydrogen with path integral molecular dynamic...
The thermodynamic properties and transport coefficients of non-ideal, high-density hydrogen plasma ...
The thermodynamic properties and transport coefficients of non-ideal, high-density hydrogen plasma ...
The thermodynamic properties and transport coefficients of non-ideal, high-density hydrogen plasma ...
10 pagesInternational audienceWe consider the hydrogen quantum plasma in the Saha regime, where it a...
The internal energy and equation of state of dense hydrogen are investigated by direct path integral...
The aim of this Ph.D. thesis is the study of high pressure hydrogen phases, by means of Monte Carlo ...
We compute thermodynamical properties of a low-density hydrogen gas within the physical picture, in ...
We compute thermodynamical properties of a low-density hydrogen gas within the physical picture, in ...
We compute thermodynamical properties of a low-density hydrogen gas within the physical picture, in ...
We compute thermodynamical properties of a low-density hydrogen gas within the physical picture, in ...
The temperature equilibration rate in dense hydrogen (for both T{sub i} > T{sub e} and T{sub i} &...
In this paper we study thermodynamic properties of hydrogen and hydrogen-helium mixtures with the he...
We present a new Monte Carlo method which couples Path Integral for finite temperature protons with ...
We study hydrogen in the Saha regime, within the physical picture in terms of a quantum proton-elect...
We survey the phase diagram of high-pressure molecular hydrogen with path integral molecular dynamic...
The thermodynamic properties and transport coefficients of non-ideal, high-density hydrogen plasma ...
The thermodynamic properties and transport coefficients of non-ideal, high-density hydrogen plasma ...
The thermodynamic properties and transport coefficients of non-ideal, high-density hydrogen plasma ...
10 pagesInternational audienceWe consider the hydrogen quantum plasma in the Saha regime, where it a...