On the influence of a magnetic field on viscous gas flow

“…This may have a considerable effect on the mechanism of the transition. Furthermore, the data obtained for fluid aluminum in the dynamic experiments [3,4], despite the essentially larger uncertainties compared to those of the static measurements [6,7], cover sufficiently wide ranges of both density and pressure. This makes it possible to see clearly the effect of pressure on the thermodynamic functions and thus to construct a correct EOS of the fluid.…”

“…In the range ϕ < 1.8 this dependence can be understood in terms of the nearly free electrons model according to which K c ∝ ϕ −2/3 . It should be noted that based on the physical significance of the cold component K c (V) it arises mainly from the motion of the valence electrons which remain strongly degenerate in the liquid state 7 . As follows from figure 7, the nearly free electrons model cannot explain the behavior of the kinetic energy in the range ϕ > 1.8 where the dependence of K c (V) acquires positive slope.…”

“…To estimate the uncertainties one always needs to compare the QMD results with sufficiently accurate experimental data. For mercury the QMD results [9] together with the experimental data [6,7] provided the physical picture in which the M-NM transition is driven mainly by the formation of clusters.…”

“…The authors [5] suggested that there must be a critical point of the transition which not necessarily coincides with the liquid-vapor critical point. The most precise experimental data on the thermodynamic and transport properties of fluid metals have been obtained for mercury, cesium and rubidium using the static experimental techniques [6,7]. The data indicate that the M-NM transitions observed in these fluids are not the phase transitions of the first kind though in the case of mercury the M-NM transition is definitely separated from the liquid-vapor phase transition.…”

Equation of state of fluid aluminum in the metal–nonmetal transition region

“…This may have a considerable effect on the mechanism of the transition. Furthermore, the data obtained for fluid aluminum in the dynamic experiments [3,4], despite the essentially larger uncertainties compared to those of the static measurements [6,7], cover sufficiently wide ranges of both density and pressure. This makes it possible to see clearly the effect of pressure on the thermodynamic functions and thus to construct a correct EOS of the fluid.…”

“…In the range ϕ < 1.8 this dependence can be understood in terms of the nearly free electrons model according to which K c ∝ ϕ −2/3 . It should be noted that based on the physical significance of the cold component K c (V) it arises mainly from the motion of the valence electrons which remain strongly degenerate in the liquid state 7 . As follows from figure 7, the nearly free electrons model cannot explain the behavior of the kinetic energy in the range ϕ > 1.8 where the dependence of K c (V) acquires positive slope.…”

“…To estimate the uncertainties one always needs to compare the QMD results with sufficiently accurate experimental data. For mercury the QMD results [9] together with the experimental data [6,7] provided the physical picture in which the M-NM transition is driven mainly by the formation of clusters.…”

“…The authors [5] suggested that there must be a critical point of the transition which not necessarily coincides with the liquid-vapor critical point. The most precise experimental data on the thermodynamic and transport properties of fluid metals have been obtained for mercury, cesium and rubidium using the static experimental techniques [6,7]. The data indicate that the M-NM transitions observed in these fluids are not the phase transitions of the first kind though in the case of mercury the M-NM transition is definitely separated from the liquid-vapor phase transition.…”

Equation of state of fluid aluminum in the metal–nonmetal transition region

“…For fluid Hg, Cs, and Rb, the critical points of which turned out to be sufficiently low, the M-NM transitions have been studied in the static experiments [4,17]. To detect the M-NM transitions in metals with the higher critical points, the dynamic experimental technique [18] has been developed.…”

Metal–non-metal transition in lead–bismuth eutectic

Transport properties of dilute gases with internal structure