Add to ORKGShock compression experiments achieving ≥ 100 GPa pressures are available for seven silicate liquid compositions in the system CaO-MgO-FeO-Al_2O_3-SiO_2. Especially when liquid states have been sampled along multiple Hugoniots, these data are sufficient to evaluate the dependence of Grüneisen γ on volume in silicate liquids. The increase in γ upon compression in these liquids is a surprising feature, but this behavior is seen consistently in all studied compositions, by multiple experimental techniques and also in ab initio molecular dynamics (MD) simulations. The remarkable observation when comparing all the studied liquids is that the rate of increase of γ upon compression is approximately universal. It can be described by q = (dln γ/dlnV...
Shock compression methods form an important complement to static compression and computational appro...
International audienceProperties of liquid silicates under high pressure and high temperature condit...
Modelling of processes involving deep Earth liquids requires information on their structures and com...
We performed shock compression experiments on preheated forsterite liquid (Mg_2SiO_4) at an initial ...
A technique has been developed for measurement of the shock wave, pressure-density equation of state...
The convection or settling of matter in the deep Earth’s interior is mostly constrained by density v...
We develop a self-consistent thermodynamic description of silicate liquids applicable across the ent...
We have conducted new equation of state measurements on liquid Fe_(2)SiO_4 in a collaborative, multi...
CaMgSi2O6 and CaSiO3 liquids have been investigated over the entire mantle pressure regime using fir...
We performed 17 new shock wave experiments on preheated (1673 K) hedenbergite liquid (CaFeSi_2O_6) a...
Hugoniots of lower mantle mineral compositions are sensitive to the conditions where they cross phas...
Shock compression methods form an important complement to static compression and computational appro...
International audienceProperties of liquid silicates under high pressure and high temperature condit...
Modelling of processes involving deep Earth liquids requires information on their structures and com...
We performed shock compression experiments on preheated forsterite liquid (Mg_2SiO_4) at an initial ...
A technique has been developed for measurement of the shock wave, pressure-density equation of state...
The convection or settling of matter in the deep Earth’s interior is mostly constrained by density v...
We develop a self-consistent thermodynamic description of silicate liquids applicable across the ent...
We have conducted new equation of state measurements on liquid Fe_(2)SiO_4 in a collaborative, multi...
CaMgSi2O6 and CaSiO3 liquids have been investigated over the entire mantle pressure regime using fir...
We performed 17 new shock wave experiments on preheated (1673 K) hedenbergite liquid (CaFeSi_2O_6) a...
Hugoniots of lower mantle mineral compositions are sensitive to the conditions where they cross phas...
Shock compression methods form an important complement to static compression and computational appro...
International audienceProperties of liquid silicates under high pressure and high temperature condit...
Modelling of processes involving deep Earth liquids requires information on their structures and com...