Meteoritic Molybdenum and Ruthenium Isotopic Abundances Document Nucleosynthetic p-process ComponentsOPEN ACCESS
Kurt Marti, Mario Fischer-Gödde, and Carina Proksche The Astrophysical Journal, Volume 956, Number 1 LINK (OPEN ACCESS)PDF (OPEN ACCESS) “Anomalies in isotopic abundances of Mo and Ru in solar system matter were found to document…
Tellurium isotope cosmochemistry: Implications for volatile fractionation in chondrite parent bodies and origin of the late veneer
Jan L. Hellmann, Timo Hopp, Christoph Burkhardt, Harry Becker, Mario Fischer-Gödde, Thorsten Kleine Geochimica et Cosmochimica ActaIn Press, Journal Pre-proof, Available online 6 July 2021 LINK “Tellurium stable isotope compositions and abundances (δ128/126Te relative to…
Mass-independent and mass-dependent Cr isotopic composition of the Rumuruti (R) chondrites: Implications for their origin and planet formationOPEN ACCESS
Ke Zhu (朱柯), Frédéric Moynier, Martin Schiller, Conel M. O’D. Alexander, Jean-Alix Barrat, Addi Bischoff, Martin Bizzarro Geochimica et Cosmochimica ActaIn Press, Corrected Proof, Available online 15 October 2020 LINK PDF (OPEN ACCESS) “Chromium (Cr)…
Sulfide‐dominated partial melting pathways in brachinites
Samuel D. Crossley, Richard D. Ash, Jessica M. Sunshine, Catherine M. Corrigan, Timothy J. McCoy, David W. Mittlefehldt, Igor S. Puchtel Meteoritics & Planetary ScienceVersion of Record online: 09 September 2020 LINK “Petrogenetic relationships among…
Cosmic‐ray exposure age and heliocentric distance of the parent body of the Rumuruti chondrite PRE 95410
Tomoya Obase, Daisuke Nakashima, Tomoki Nakamura, Keisuke Nagao Meteoritics & Planetary Science LINK “We measured concentrations and isotopic ratios of noble gases in the Rumuruti (R) chondrite Mount Prestrud (PRE) 95410, a regolith breccia exhibiting…
Subsolar Al/Si and Mg/Si ratios of non-carbonaceous chondrites reveal planetesimal formation during early condensation in the protoplanetary diskOPEN ACCESS
A. Morbidelli, G. Libourel, H. Palme, S.A. Jacobson, D.C. Rubie Accepted for publication in EPSL PDF (OPEN ACCESS) “The Al/Si and Mg/Si ratios in non-carbonaceous chondrites are lower than the solar (i.e., CI-chondritic) values, in…
Paleomagnetism of Rumuruti chondrites suggests a partially differentiated parent body
C. Cournède, J. Gattacceca, P. Rochette, D.L. Shuster Earth and Planetary Science Letters Volume 533, 1 March 2020, 116042 LINK “Highlights • We examine the paleomagnetism of two metamorphosed Rumuruti chondrites. • Both possess a…
Insights into the formation of silica‐rich achondrites from impact melts in Rumuruti‐type chondrites
N. G. Lunning, A. Bischoff, J. Gross, M. Patzek, C. M. Corrigan, T. J. McCoy Meteoritics & Planetary Science First Published: 19 December 2019 LINK “Ancient, SiO2‐rich achondrites have previously been proposed to have formed…
Geochemical and oxygen isotope perspective of a new R chondrite Dhofar 1671: Affinity with ordinary chondrites.
Ali, A., Nasir, S. J., Jabeen, I., Al Rawas, A., Banerjee, N. R. and Osinski, G. R. Meteoritics & Planetary Science. doi: 10.1111/maps.12903 LINK “Dhofar 1671 is a relatively new meteorite that previous studies suggest…
Formation of unequilibrated R chondrite chondrules and opaque phases
K.E. Miller, D.S. Lauretta, H.C. Connolly Jr., E.L. Berger, K. Nagashima, K. Domanik Geochimica et Cosmochimica Acta In Press, Accepted Manuscript, Available online 18 April 2017 LINK “Sulfide assemblages are commonly found in chondritic meteorites…
D/H-Ratio and Microstructure of a Strongly Hydrated Microclast in the Rumuruti Chondrite Northwest Africa 6828
A. Greshake, P. Hoppe, R. Wirth 47th Lunar and Planetary Science Conference (2016), Abstract #1026 PDF
Oxygen Isotope Systematics of Chondrules in R3 Clasts: A Genetic Link to Ordinary Chondrites
N. T. Kita, T. J. Tenner, C. Defouilloy, D. Nakashima, T. Ushikubo, A. Bischoff 46th Lunar and Planetary Science Conference (2015), Abstract #2053 PDF LINK
A strongly hydrated microclast in the Rumuruti chondrite NWA 6828: Implications for the distribution of hydrous material in the solar system.
Greshake A. Meteoritics & Planetary Science, 49: 824–841. doi: 10.1111/maps.12295 LINK
