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Fractional crystallization of a Martian magma ocean and formation of a thermochemical boundary layer at the base of the mantle

zeff, garrett1

University of California, Santa Cruz

Published Aug 05, 2019 on Dryad. https://doi.org/10.7291/D1CM1M

Data files

Aug 05, 2019 version files 969.63 KB

anhydrous_clinopyroxene.tbl

6.92 KB
anhydrous_garnet.tbl

10.40 KB
anhydrous_melts-liquid.tbl

49.32 KB
anhydrous_melts.out

399.54 KB
anhydrous_olivine.tbl

22.84 KB
anhydrous_orthopyroxene.tbl

10.06 KB
anhydrous_spinel.tbl

8.42 KB
burnman_mantle_script.py

5.42 KB
burnman_tcbl_script.py

6.45 KB
hydrous_clinopyroxene.tbl

7.40 KB
hydrous_garnet.tbl

4.44 KB
hydrous_melts-liquid.tbl

48.22 KB
hydrous_melts.out

349.36 KB
hydrous_olivine.tbl

12.36 KB
hydrous_orthopyroxene.tbl

11.27 KB
hydrous_spinel.tbl

7.18 KB
pressure-density-data.txt

10.06 KB

Abstract

BurnMan and pMELTS outputs for simulations of fractionally crystallizing magma oceans on Mars.

Citation

zeff, garrett (2019). Fractional crystallization of a Martian magma ocean and formation of a thermochemical boundary layer at the base of the mantle [Dataset]. Dryad. https://doi.org/10.7291/D1CM1M

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