The dataset contains thickness (diamond-to-diamond) distances measured at the center of the diamond anvil cell cavity filled with MgO, KCl, NaCl, Al2O3, aSiO2 (fused silica), and argon upon compression and decompression
The focus of this program at the University of Alabama at Birmingham (UAB) is to develop the next ge...
International audienceThe heat flux across the core-mantle boundary (QCMB) is the key parameter to u...
A hydrothermal diamond anvil cell (HDAC) has been modified by drilling holes with a laser to within ...
The thermal conductivities of mantle and core materials have a major impact on planetary evolution, ...
We have undertaken a study of the feasibility of an innovative method for the determination of therm...
The thermal conductivity of the Earth's lowermost mantle controls the rate of heat flow across the c...
International audienceWe describe a flash-heating procedure designed to measure thermal diffusivity ...
Metal-silicate partitioning studies performed in high pressure, laser-heated diamond anvil cells (DA...
The thermal conductivity of minerals in Earth's lowermost mantle is important for the thermal and ch...
Thermomechanical modeling of a sample assembly (sample plus pressure transmitting medium) in a laser...
Thermal pressure is an inevitable thermodynamic consequence of heating a volumetrically constrained ...
Metal–silicate partitioning studies performed in high-pressure, laser-heated diamond anvil cells (DA...
Resistive heating of a sample in a diamond anvil cell (DAC) can generate a homogeneous temperature f...
International audienceHigh-pressure and/or high-temperature analysis of geo- and material science sa...
International audienceThis study aims at providing an accurate method to determine in situ the press...
The focus of this program at the University of Alabama at Birmingham (UAB) is to develop the next ge...
International audienceThe heat flux across the core-mantle boundary (QCMB) is the key parameter to u...
A hydrothermal diamond anvil cell (HDAC) has been modified by drilling holes with a laser to within ...
The thermal conductivities of mantle and core materials have a major impact on planetary evolution, ...
We have undertaken a study of the feasibility of an innovative method for the determination of therm...
The thermal conductivity of the Earth's lowermost mantle controls the rate of heat flow across the c...
International audienceWe describe a flash-heating procedure designed to measure thermal diffusivity ...
Metal-silicate partitioning studies performed in high pressure, laser-heated diamond anvil cells (DA...
The thermal conductivity of minerals in Earth's lowermost mantle is important for the thermal and ch...
Thermomechanical modeling of a sample assembly (sample plus pressure transmitting medium) in a laser...
Thermal pressure is an inevitable thermodynamic consequence of heating a volumetrically constrained ...
Metal–silicate partitioning studies performed in high-pressure, laser-heated diamond anvil cells (DA...
Resistive heating of a sample in a diamond anvil cell (DAC) can generate a homogeneous temperature f...
International audienceHigh-pressure and/or high-temperature analysis of geo- and material science sa...
International audienceThis study aims at providing an accurate method to determine in situ the press...
The focus of this program at the University of Alabama at Birmingham (UAB) is to develop the next ge...
International audienceThe heat flux across the core-mantle boundary (QCMB) is the key parameter to u...
A hydrothermal diamond anvil cell (HDAC) has been modified by drilling holes with a laser to within ...
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