Accretion regions of meteorite parent bodies inferred from a two-endmember isotopic mixing model
The diverse isotopic anomalies of meteorites demonstrate that the protoplanetary disc was
composed of components from different stellar sources, which mixed in the disc and formed …
composed of components from different stellar sources, which mixed in the disc and formed …
Accretion regions of meteorite parent bodies inferred from a two-endmember isotopic mixing model
K Shuai, H Hui, L Zhou, W Li - Monthly Notices of the Royal …, 2022 - academic.oup.com
The diverse isotopic anomalies of meteorites demonstrate that the protoplanetary disc was
composed of components from different stellar sources, which mixed in the disc and formed …
composed of components from different stellar sources, which mixed in the disc and formed …
[PDF][PDF] Accretion regions of meteorite parent bodies inferred from a two-endmember isotopic mixing model
K Shuai, H Hui, L Zhou, W Li - Monthly Notices of the Royal …, 2022 - drive.google.com
The diverse isotopic anomalies of meteorites demonstrate that the protoplanetary disc was
composed of components from different stellar sources, which mixed in the disc and formed …
composed of components from different stellar sources, which mixed in the disc and formed …
Accretion regions of meteorite parent bodies inferred from a two-endmember isotopic mixing model
K Shuai, H Hui, L Zhou, W Li - Monthly Notices of the Royal …, 2022 - ui.adsabs.harvard.edu
The diverse isotopic anomalies of meteorites demonstrate that the protoplanetary disc was
composed of components from different stellar sources, which mixed in the disc and formed …
composed of components from different stellar sources, which mixed in the disc and formed …