Member Since 2011
Seth Andrew Jacobson
Assistant Professor, Michigan State University
AGU Research
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Delivery and fractionation of vanadium isotopes during multi-stage terrestrial core formation
EXPLORING ROCKY BODY EVOLUTION IN THE SOLAR SYSTEM AND BEYOND I POSTER
study of earth's deep interior | 14 december 2023
Gabriel Nathan, Seth A. Jacobson
There is heterogeneity in vanadium isotopic composition among Solar System bodies. Observed correlation between increasing parent body mass and isotop...
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Orbit Period Variations of Dimorphos After the DART Impact
FIRST RESULTS FROM THE DART KINETIC IMPACT ONTO DIMORPHOS AND LICIACUBE OBSERVATIONS IV POSTER
planetary sciences | 16 december 2022
Alex Meyer, Daniel J. Scheeres, Ioannis Gkolias, M...
The DART impact will force Dimorphos, the secondary of the Didymos binary asteroid system, to librate in its orbit. Due to spin-orbit coupling, any li...
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Estimation of the change in velocity experienced by Dimorphos in response to the DART spacecraft impact
FIRST RESULTS FROM THE DART KINETIC IMPACT ONTO DIMORPHOS AND LICIACUBE OBSERVATIONS IV POSTER
planetary sciences | 16 december 2022
Brent Barbee, Joshua Lyzhoft, Shantanu Naidu, Stev...
NASAs Double Asteroid Redirection Test (DART) spacecraft mission is scheduled to impact the ~160-m-diameter secondary component of the Didymos binary ...
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First Assessment of the Dynamical State of the Didymos Binary Asteroid System Before and After the DART Impact
FIRST RESULTS FROM THE DART KINETIC IMPACT ONTO DIMORPHOS AND LICIACUBE OBSERVATIONS I ORAL
planetary sciences | 16 december 2022
Derek C. Richardson, Harrison F. Agrusa, Brent Bar...
As a demonstration of kinetic impact deflection, NASAs Double Asteroid Redirection Test (DART) spacecraft nominally impacted the natural satellite of ...
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Accretion Models and Collisional Erosion in the Context of Geo- and Cosmochemical Constraints
PLANETARY ACCRETION, CORE FORMATION, AND MAGMA OCEANS IN THE INNER SOLAR SYSTEM I ORAL
study of earth's deep interior | 15 december 2021
Laetitia Allibert, Sébastien Charnoz, Julien Siebe...
Terrestrial planets accretion models often involve high-impact velocity impacts and subsequent collisional erosion of chemically distinct layers in di...
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Modeling the evolution of mantle and atmospheric elemental abundances on nascent Earth-like planets
MULTIDISCIPLINARY PERSPECTIVE ON THE FORMATION, EARLY EVOLUTION, AND MINERALOGY OF TERRESTRIAL WORLDS II POSTER
study of earth's deep interior | 15 december 2021
Howard Chen, Seth A. Jacobson
Chondritic materials are thought to have delivered crucial atmospheric and hydrospheric elements such as carbon (C), nitrogen (N), and hydrogen (H) on...
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Formation of Planetesimals through Gravitational Collapse
ACCRETION AND DIFFERENTIATION OF ROCKY PLANETS: PERSPECTIVES FROM GEOPHYSICS, GEOCHEMISTRY, AND ASTRONOMY II POSTERS
study of earth's deep interior | 14 december 2020
Jackson Barnes, Seth A. Jacobson, Stephen R. Schwa...
The gravitational collapse formation theory directly creates planetesimals up to a few hundred km in size from cm-sized pebbles by bypassing the radia...
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Formation of Terrestrial-like Systems with Pebble Accretion
ACCRETION AND DIFFERENTIATION OF ROCKY PLANETS: PERSPECTIVES FROM GEOPHYSICS, GEOCHEMISTRY, AND ASTRONOMY I
study of earth's deep interior | 14 december 2020
Michiel Lambrechts, Sebastian Lorek, Anders Johans...
Terrestrial planet formation concludes, after the protoplanetary gas disc dissipates, in a giant impact phase where protoplanets with masses similar t...
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