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Bijaya B Karki

Showing results (1-10 of 15) with videos related to

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Physical Review Letters|September 28, 2010
First-principles study of enhancement of transport properties of silica melt by waterBijaya B Karki, Lars Stixrude
Journal of Molecular Graphics & Modelling|March 13, 2009
Atomistic visualization: space-time multiresolution integration of data analysis and renderingDipesh Bhattarai, Bijaya B Karki
Science Advances|December 12, 2017
Transport properties of carbonated silicate melt at high pressureDipta B Ghosh, Bijaya B Karki
Science (New York, N.Y.)|May 8, 2010
Viscosity of MgSiO3 liquid at Earth's mantle conditions: implications for an early magma oceanBijaya B Karki, Lars P Stixrude
Scientific Reports|November 23, 2016
Solid-liquid density and spin crossovers in (Mg, Fe)O system at deep mantle conditionsDipta B Ghosh, Bijaya B Karki
Physical Review Letters|September 28, 2010
Thermal conductivity of periclase (MgO) from first principlesStephen Stackhouse, Lars Stixrude, Bijaya B Karki
Nature Communications|October 10, 2015
Structure and density of basaltic melts at mantle conditions from first-principles simulationsSuraj Bajgain, Dipta B Ghosh, Bijaya B Karki
Scientific Reports|May 20, 2021
Behavior and properties of water in silicate melts under deep mantle conditionsBijaya B Karki, Dipta B Ghosh, Shun-Ichiro Karato
Scientific Reports|April 14, 2017
Carbon-bearing silicate melt at deep mantle conditionsDipta B Ghosh, Suraj K Bajgain, Mainak Mookherjee, et al.
Proceedings of the National Academy of Sciences of the United States of America|May 10, 2019
Evidence for Fe-Si-O liquid immiscibility at deep Earth pressuresSarah M Arveson, Jie Deng, Bijaya B Karki, et al.
Pageof 2

Showing results (1-10 of 15) with videos related to

Sort By:
Pageof 2
Physical Review Letters|September 28, 2010
First-principles study of enhancement of transport properties of silica melt by waterBijaya B Karki, Lars Stixrude
Journal of Molecular Graphics & Modelling|March 13, 2009
Atomistic visualization: space-time multiresolution integration of data analysis and renderingDipesh Bhattarai, Bijaya B Karki
Science Advances|December 12, 2017
Transport properties of carbonated silicate melt at high pressureDipta B Ghosh, Bijaya B Karki
Science (New York, N.Y.)|May 8, 2010
Viscosity of MgSiO3 liquid at Earth's mantle conditions: implications for an early magma oceanBijaya B Karki, Lars P Stixrude
Scientific Reports|November 23, 2016
Solid-liquid density and spin crossovers in (Mg, Fe)O system at deep mantle conditionsDipta B Ghosh, Bijaya B Karki
Physical Review Letters|September 28, 2010
Thermal conductivity of periclase (MgO) from first principlesStephen Stackhouse, Lars Stixrude, Bijaya B Karki
Nature Communications|October 10, 2015
Structure and density of basaltic melts at mantle conditions from first-principles simulationsSuraj Bajgain, Dipta B Ghosh, Bijaya B Karki
Scientific Reports|May 20, 2021
Behavior and properties of water in silicate melts under deep mantle conditionsBijaya B Karki, Dipta B Ghosh, Shun-Ichiro Karato
Scientific Reports|April 14, 2017
Carbon-bearing silicate melt at deep mantle conditionsDipta B Ghosh, Suraj K Bajgain, Mainak Mookherjee, et al.
Proceedings of the National Academy of Sciences of the United States of America|May 10, 2019
Evidence for Fe-Si-O liquid immiscibility at deep Earth pressuresSarah M Arveson, Jie Deng, Bijaya B Karki, et al.
Pageof 2