Formation and evolution of carbonaceous asteroid Ryugu: Direct evidence from returned samples T Nakamura, M Matsumoto, K Amano, Y Enokido, ME Zolensky, ... Science 379 (6634), eabn8671, 2022 | 140 | 2022 |
Early aqueous activity on the ordinary and carbonaceous chondrite parent bodies recorded by fayalite PM Doyle, K Jogo, K Nagashima, AN Krot, S Wakita, FJ Ciesla, ... Nature Communications 6 (1), 7444, 2015 | 126 | 2015 |
Thermal and impact history of the H chondrite parent asteroid during metamorphism: Constraints from metallic Fe–Ni ERD Scott, TV Krot, JI Goldstein, S Wakita Geochimica et Cosmochimica Acta 136, 13-37, 2014 | 70 | 2014 |
Thermal evolution of icy planetesimals in the solar nebula S Wakita, M Sekiya Earth, planets and space 63, 1193-1206, 2011 | 41 | 2011 |
Planetesimal collisions as a chondrule forming event S Wakita, Y Matsumoto, S Oshino, Y Hasegawa The Astrophysical Journal 834 (2), 125, 2017 | 31 | 2017 |
Chondrule Formation via Impact Jetting Triggered by Planetary Accretion Y Hasegawa, S Wakita, Y Matsumoto, S Oshino The Astrophysical Journal 816 (1), 8, 2015 | 26 | 2015 |
Mineral chemistry of MUSES‐C Regio inferred from analysis of dust particles collected from the first‐and second‐touchdown sites on asteroid Itokawa T Nakamura, A Nakato, H Ishida, S Wakita, T Noguchi, ME Zolensky, ... Meteoritics & Planetary Science 49 (2), 215-227, 2014 | 26 | 2014 |
Thermal modeling for a parent body of Itokawa S Wakita, T Nakamura, T Ikeda, H Yurimoto Meteoritics & Planetary Science 49 (2), 228-236, 2014 | 25 | 2014 |
Mn–Cr ages and formation conditions of fayalite in CV3 carbonaceous chondrites: constraints on the accretion ages of chondritic asteroids K Jogo, T Nakamura, M Ito, S Wakita, MY Zolotov, SR Messenger Geochimica et Cosmochimica Acta 199, 58-74, 2017 | 20 | 2017 |
Fates of hydrous materials during planetesimal collisions S Wakita, H Genda Icarus 328, 58-68, 2019 | 18 | 2019 |
Jetting during oblique impacts of spherical impactors S Wakita, BC Johnson, CA Denton, TM Davison Icarus 360, 114365, 2021 | 15 | 2021 |
Pluto's antipodal terrains imply a thick subsurface ocean and hydrated core CA Denton, BC Johnson, S Wakita, AM Freed, HJ Melosh, SA Stern Geophysical Research Letters 48 (2), e2020GL091596, 2021 | 15 | 2021 |
Forming chondrites in a solar nebula with magnetically induced turbulence Y Hasegawa, NJ Turner, J Masiero, S Wakita, Y Matsumoto, S Oshino The Astrophysical Journal Letters 820 (1), L12, 2016 | 13 | 2016 |
Enhancement of Impact Heating in Pressure‐Strengthened Rocks in Oblique Impacts S Wakita, H Genda, K Kurosawa, TM Davison Geophysical Research Letters 46 (23), 13678-13686, 2019 | 11 | 2019 |
Probing the Physical Conditions of Supernova Ejecta with the Measured Sizes of Presolar Al2O3 Grains T Nozawa, S Wakita, Y Hasegawa, T Kozasa The Astrophysical Journal Letters 811 (2), L39, 2015 | 11 | 2015 |
Numerical simulations of the gravitational instability in the dust layer of a protoplanetary disk using a thin disk model S Wakita, M Sekiya The Astrophysical Journal 675 (2), 1559, 2008 | 9 | 2008 |
An iterative method for obtaining a nonlinear solution for the temperature distribution of a spinning spherical body irradiated by a central star M Sekiya, AA Shimoda, S Wakita Planetary and Space Science 60 (1), 304-313, 2012 | 8 | 2012 |
Chondrule Accretion with a Growing Protoplanet Y Matsumoto, S Oshino, Y Hasegawa, S Wakita The Astrophysical Journal 837 (2), 103, 2017 | 7 | 2017 |
Effect of Impact Velocity and Angle on Deformational Heating and Postimpact Temperature S Wakita, H Genda, K Kurosawa, TM Davison, BC Johnson Journal of Geophysical Research: Planets 127 (8), e2022JE007266, 2022 | 6 | 2022 |
Aggregate Growth and Internal Structures of Chondrite Parent Bodies Forming from Dense Clumps Y Matsumoto, S Wakita, Y Hasegawa, S Oshino The Astrophysical Journal 887 (2), 248, 2019 | 6 | 2019 |