Tracing the origin of volatiles on Earth using nitrogen isotope ratios in iron meteorites
Damanveer S. Grewal, Surjyendu Bhattacharjee, Gabriel-Darius Mardaru, Paul D. Asimow Geochimica et Cosmochimica ActaIn Press, Journal Pre-proof, Available online 15 November 2024 LINK “Understanding the relationships between the nitrogen (N) isotope ratios of early solar…
Quantification of evaporative loss of volatile metals from planetary cores and metal-rich planetesimalsOPEN ACCESS
E.S. Steenstra, C.J. Renggli, J. Berndt, S. Klemme Geochimica et Cosmochimica ActaIn Press, Journal Pre-proof, Available online 31 August 2024 LINK + PDF (OPEN ACCESS) “The processes responsible for the isotopic compositions and abundances of…
Compositions of iron-meteorite parent bodies constrain the structure of the protoplanetary diskOPEN ACCESS
Bidong Zhang, Nancy L. Chabot, and Alan E. Rubin PNAS, Vol. 121, No. 2328 May 28, 2024 LINK (OPEN ACCESS)PDF (OPEN ACCESS) “Magmatic iron-meteorite parent bodies are the earliest planetesimals in the Solar System, and…
Accretion of the earliest inner Solar System planetesimals beyond the water snowline
Damanveer S. Grewal, Nicole X. Nie, Bidong Zhang, Andre Izidoro & Paul D. Asimow Nature AstronomyPublished: 09 January 2024 LINK “How and where the first generation of inner Solar System planetesimals formed remains poorly understood….
Evaporation of moderately volatile elements from metal and sulfide melts: Implications for volatile element abundances in magmatic iron meteorites
E.S. Steenstra, C.J. Renggli, J. Berndt, S. Klemme Earth and Planetary Science LettersVolume 622, 15 November 2023, 118406 LINK “Volatile element abundances in magmatic iron meteorites provide fundamental insights into the processing of volatile elements…
Compositions of carbonaceous-type asteroidal cores in the early solar systemOPEN ACCESS
Bidong Zhang, Nancy L. Chabot and Alan E. Rubin Science Advances16 Sep 2022Vol 8, Issue 37 LINK (OPEN ACCESS)PDF (OPEN ACCESS) Supplementary Materials (PDF) “The parent cores of iron meteorites belong to the earliest accreted…
Chemical characteristics of iron meteorite parent bodies
Connor D. Hilton, Richard D. Ash, Richard J. Walker Geochimica et Cosmochimica ActaAvailable online 6 December 2021 LINK “The projected relative abundances of the highly siderophile elements (HSE; Re, Os, Ir, Ru, Pt, and Pd)…
Early differentiation of magmatic iron meteorite parent bodies from Mn-Cr chronometryOPEN ACCESS
Aryavart Anand, Jonas Pape, Martin Wille, Klaus Mezger, Beda Hofmann Accepted for publication in Geochemical Perspective Letters PDF (OPEN ACCESS) “Magmatic iron meteorite groups such as IIAB, IIIAB and IVA, represent the largest sampling of…
A revised trapped melt model for iron meteorites applied to the IIIAB groupOPEN ACCESS
Nancy L. Chabot, Bidong Zhang Meteoritics & Planetary ScienceVersion of Record online: 18 October 2021 LINK (OPEN ACCESS)PDF (OPEN ACCESS) “As the largest magmatic iron meteorite group, the IIIAB group is often used to investigate…
Early accretion of planetesimals unraveled by the thermal evolution of the parent bodies of magmatic iron meteorites
Edouard Kaminski, Angela Limare, Balthasar Kenda, Marc Chaussidon Earth and Planetary Science LettersVolume 548, 15 October 2020, 116469 LINK “Highlights • Hf/W ages of magmatic iron meteorites define a common thermal evolution.• We propose a…
