Member Since 2013
Sarah M. Arveson
Postdoctoral Researcher, University of California Berkeley
AGU Research
Search
Filters
Clear All
High-pressure, high-temperature phases of Canyon Diablo iron meteorite: A natural analog for terrestrial planetary cores
PROPERTIES OF VOLATILES AND METAL ALLOYS IN ROCKY PLANETARY INTERIORS AND THEIR SURFACE EXPRESSION III POSTER
mineral and rock physics | 14 december 2022
Mercedes Vasquez, Sarah M. Arveson, Thomas J. Smar...
Synchrotron-based x-ray diffraction of Canyon Diablo iron meteorite at simultaneously high pressures and temperatures reveals evidence for the face-ce...
View Abstract
Integrating URGE deliverables into a department-level strategic plan for enhancing diversity
UNLEARNING RACISM IN GEOSCIENCE: PART 1
innovations | 15 december 2021
Michael Manga, Sarina Patel, Sarah M. Arveson, Kri...
The Department of Earth and Planetary Science, University of California, Berkeley has a strategic plan for enhancing diversity to support the departme...
View Abstract
Solid Phases and Melting of Elemental Silicon at High Pressures and Temperatures
EARTH AND PLANETARY MATERIALS: PROPERTIES, INTERACTIONS, AND CONSEQUENCES FOR PLANETARY DYNAMICS I ORAL
mineral and rock physics | 14 december 2021
Sarah M. Arveson, Yue Meng, Dean Smith, Kanani K. ...
We investigate the high-pressure and high-temperature crystal structures of elemental silicon using in situ synchrotron x-ray diffraction (XRD) in las...
View Abstract
Melting of Elemental Sulfur at High Pressures
FRONTIERS OF EXPERIMENTAL AND ANALYTICAL TECHNIQUES IN THE MINERAL STUDIES AT EXTREME CONDITIONS II POSTERS
mineral and rock physics | 16 december 2020
Sarah M. Arveson, Yue Meng, Kanani K. Lee
Despite being the fifth most abundant element on Earth and the tenth most abundant element in the universe, the properties of elemental sulfur at the ...
View Abstract
High-temperature, high-pressure behavior of lithium fluoride
FRONTIERS OF EXPERIMENTAL AND ANALYTICAL TECHNIQUES IN THE MINERAL STUDIES AT EXTREME CONDITIONS I
mineral and rock physics | 16 december 2020
Kanani K. Lee, Sarah M. Arveson, Yue Meng, Markus ...
Lithium fluoride (LiF) is used extensively as a pressure medium and as thermal insulation in diamond-anvil cell (DAC) experiments; and is also used as...
View Abstract
Coupled Precipitation of Light Elements from the Core into the Mantle: Importance for Powering Earth's Dynamo
MODELING THE CORE-MANTLE SYSTEM: INTERACTIONS AND UNCERTAINTIES II POSTERS
study of earth's deep interior | 10 december 2019
Sarah M. Arveson, Tushar Mittal, Nicholas R. Kneze...
Earth has had a global magnetic field for at least 3.5 billion years, but recent high conductivity measurements make it difficult to explain this dura...
View Abstract
Evidence for Fe-Si-O Liquid Immiscibility at the Conditions of Earth's Core
EXPLORING THE EARTH'S CORE: A MULTIDISCIPLINARY APPROACH I
study of earth's deep interior | 09 december 2019
Sarah M. Arveson, Jie Deng, Bijaya B. Karki, Kanan...
Seismic observations suggest that the uppermost region of Earth's liquid outer core is buoyant, with slower velocities than that of the bulk outer cor...
View Abstract
Immiscibility and Precipitation in the Outer Core: The Complex Role of Light Elements in Core Structure and Geodynamo Evolution
CORE AND DYNAMO
union | 09 december 2019
Sarah M. Arveson
Mineral physics experiments and computations reveal that light elements alloyed with iron in the molten outer core play an important role in structure...
View Abstract