2015
DOI: 10.1088/0953-8984/27/27/275103
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Thermodynamic properties of liquid gallium from picosecond acoustic velocity measurements

Abstract: Due to discrepancies in the literature data the thermodynamic properties of liquid gallium are still in debate. Accurate measurements of adiabatic sound velocities as a function of pressure and temperature have been obtained by the combination of laser picosecond acoustics and surface imaging on sample loaded in diamond anvil cell. From these results the thermodynamic parameters of gallium have been extracted by a numerical procedure up to 10 GPa and 570 K. It is demonstrated that a Murnaghan equation of state… Show more

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Cited by 27 publications
(19 citation statements)
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“…As expected due to densification under pressure, Q 1 shifts towards higher Q values and r 1 shifts to shorter distances with increasing pressure. Both the first peak position Q 1 and the nearest-neighbor distance r 1 change linearly as a function of pressure, suggesting that no detectable liquid-liquid phase transition occurs in this pressure range, which is consistent with previous studies 25, 26 .
Figure 1( a ) Structure factors S ( Q ) and ( b ) pair distribution function g ( r ) from experiments (blue thin line) at various pressure conditions and corresponding RMC simulations (gray thick line). Crystalline structure of Ga phase I, II and III are illustrated in their corresponding phase domains.
…”
Section: Resultssupporting
confidence: 92%
“…As expected due to densification under pressure, Q 1 shifts towards higher Q values and r 1 shifts to shorter distances with increasing pressure. Both the first peak position Q 1 and the nearest-neighbor distance r 1 change linearly as a function of pressure, suggesting that no detectable liquid-liquid phase transition occurs in this pressure range, which is consistent with previous studies 25, 26 .
Figure 1( a ) Structure factors S ( Q ) and ( b ) pair distribution function g ( r ) from experiments (blue thin line) at various pressure conditions and corresponding RMC simulations (gray thick line). Crystalline structure of Ga phase I, II and III are illustrated in their corresponding phase domains.
…”
Section: Resultssupporting
confidence: 92%
“…Moreover, by white light interferences, we also estimated the thickness of the recovered gasket at ambient conditions to be 21(1)µm. A constant thickness upon decompression is consistent with many other experimental observations 22,25,26 and has been explained through the study of plasticity processes inside the rhenium gasket 27 under relaxing stresses.…”
Section: Experimental Methodssupporting
confidence: 90%
“…As illustrated in Fig. 3, the evolution of the liquid density with pressure along an isotherm at 500 K (extracted from the present sound velocity measurements on the basis of exact thermodynamic relations, an approach that have been already proven for many different metallic liquids 22,26 ) overall well compares with most recent density determination by x-ray absorption technique 19 , at least to the extent that any sharp discontinuity in density is Hattori 19 ). The maximal uncertainties associated with the relative densities ∆ρ/ρ is estimated of about 2% 22,26 .…”
Section: Discussionsupporting
confidence: 70%
“…The investigation of phase transformations is performed with two complementary in situ techniques: Raman scattering technique and picosecond acoustics technique. The latter is equivalent to time-resolved Brillouin spectroscopy, and it exploits the sound velocity as a sensitive tool to probe the phase changes in material [17].…”
Section: Introductionmentioning
confidence: 99%