Francis McCubbin
Francis McCubbin
Astromaterials Curator at NASA Johnson Space Center
Verified email at - Homepage
TitleCited byYear
Nominally hydrous magmatism on the Moon
FM McCubbin, A Steele, EH Hauri, H Nekvasil, S Yamashita, RJ Hemley
Proceedings of the National Academy of Sciences 107 (25), 11223-11228, 2010
Unique Meteorite from Early Amazonian Mars: Water-Rich Basaltic Breccia Northwest Africa 7034
CB Agee, NV Wilson, FM McCubbin, K Ziegler, VJ Polyak, ZD Sharp, ...
Science 339 (6121), 780-785, 2013
A reduced organic carbon component in martian basalts
A Steele, FM McCubbin, M Fries, L Kater, NZ Boctor, ML Fogel, ...
Science 337 (6091), 212-215, 2012
Hydrous melting of the martian mantle produced both depleted and enriched shergottites
FM McCubbin, EH Hauri, SM Elardo, KE Vander Kaaden, J Wang, ...
Geology 40 (8), 683-686, 2012
Fluorine and chlorine abundances in lunar apatite: Implications for heterogeneous distributions of magmatic volatiles in the lunar interior
FM McCubbin, BL Jolliff, H Nekvasil, PK Carpenter, RA Zeigler, A Steele, ...
Geochimica et Cosmochimica Acta 75 (17), 5073-5093, 2011
The lunar apatite paradox
JW Boyce, SM Tomlinson, FM McCubbin, JP Greenwood, AH Treiman
Science 344 (6182), 400-402, 2014
Detection of structurally bound hydroxyl in fluorapatite from Apollo mare basalt 15058, 128 using TOF-SIMS
FM McCubbin, A Steele, H Nekvasil, A Schnieders, T Rose, M Fries, ...
American Mineralogist 95 (8-9), 1141-1150, 2010
Hydrous magmatism on Mars: A source of water for the surface and subsurface during the Amazonian
FM McCubbin, A Smirnov, H Nekvasil, J Wang, E Hauri, DH Lindsley
Earth and Planetary Science Letters 292 (1-2), 132-138, 2010
The origin of water in the primitive Moon as revealed by the lunar highlands samples
JJ Barnes, R Tartèse, M Anand, FM McCubbin, IA Franchi, NA Starkey, ...
Earth and Planetary Science Letters 390, 244-252, 2014
A petrogenetic model for the comagmatic origin of chassignites and nakhlites: Inferences from chlorine‐rich minerals, petrology, and geochemistry
FM McCubbin, SM Elardo, CK Shearer Jr, A Smirnov, EH Hauri, ...
Meteoritics & Planetary Science 48 (5), 819-853, 2013
A hydrogen-based oxidation mechanism relevant to planetary formation
ZD Sharp, FM McCubbin, CK Shearer
Earth and Planetary Science Letters 380, 88-97, 2013
Is Mercury a volatile‐rich planet?
FM McCubbin, MA Riner, KE Vander Kaaden, LK Burkemper
Geophysical Research Letters 39 (9), 2012
Early accretion of water in the inner solar system from a carbonaceous chondrite–like source
AR Sarafian, SG Nielsen, HR Marschall, FM McCubbin, BD Monteleone
Science 346 (6209), 623-626, 2014
Magmatic volatiles (H, C, N, F, S, Cl) in the lunar mantle, crust, and regolith: Abundances, distributions, processes, and reservoirs
FM McCubbin, KE Vander Kaaden, R Tartèse, RL Klima, Y Liu, J Mortimer, ...
American Mineralogist 100 (8-9), 1668-1707, 2015
Maskelynite-hosted apatite in the Chassigny meteorite: Insights into late-stage magmatic volatile evolution in martian magmas
FM McCubbin, H Nekvasil
American Mineralogist 93 (4), 676-684, 2008
Apatites in lunar KREEP basalts: The missing link to understanding the H isotope systematics of the Moon
R Tartèse, M Anand, FM McCubbin, SM Elardo, CK Shearer, IA Franchi
Geology 42 (4), 363-366, 2014
Hydrothermal jarosite and hematite in a pyroxene-hosted melt inclusion in martian meteorite Miller Range (MIL) 03346: Implications for magmatic-hydrothermal fluids on Mars
FM McCubbin, NJ Tosca, A Smirnov, H Nekvasil, A Steele, M Fries, ...
Geochimica et Cosmochimica Acta 73 (16), 4907-4917, 2009
Alkalic parental magmas for chassignites?
H Nekvasil, J Filiberto, FM McCUBBIN, DH Lindsley
Meteoritics & Planetary Science 42 (6), 979-992, 2007
Heterogeneous distribution of H2O in the Martian interior: Implications for the abundance of H2O in depleted and enriched mantle sources
FM McCubbin, JW Boyce, P Srinivasan, AR Santos, SM Elardo, J Filiberto, ...
Meteoritics & Planetary Science 51 (11), 2036-2060, 2016
Experimental investigation of F, Cl, and OH partitioning between apatite and Fe-rich basaltic melt at 1.0–1.2 GPa and 950–1000 C
FM McCubbin, KE Vander Kaaden, R Tartèse, JW Boyce, S Mikhail, ...
American Mineralogist 100 (8-9), 1790-1802, 2015
The system can't perform the operation now. Try again later.
Articles 1–20