Tara Hayden- Doctor of Philosophy
- Postdoctoral Associate at Western University
Tara Hayden
- Doctor of Philosophy
- Postdoctoral Associate at Western University
Postdoctoral Associate, University of Western Ontario
About
21
Publications
853
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7
Citations
Introduction
Current institution
Additional affiliations
March 2023 - present
Position
- PostDoc Position
Description
- Postdoctoral researcher focusing on lunar geoscience
October 2018 - February 2023
March 2023 - February 2024
Education
October 2018 - February 2023
September 2014 - June 2018
University of Glasgow
Field of study
- Earth Science
Publications
Publications (21)
Determination of the systematics of volatile elements (for example, H, Cl, S) of the early Moon is one of the main objectives of lunar science. This has been hindered by the lack of the main volatile-bearing mineral, apatite, in ferroan anorthosites (FANs), which are thought to represent the primary products of the lunar magma ocean and the earlies...
The background, demographic make-up, and perspectives of the early career research affiliates of the Artemis III Geology Team
Sample analyses consideration as part of the Artemis III sampling plan.
A detailed analysis of the textural and geochemical diversity of lunar meteorite Touat 005. Type specimens indicate a sample rich in anorthositic clasts and minor melt rock component, however, a newly acquired specimen may reveal increased heterogeneity in this meteorite
The first detection of apatite within a ferroan anorthosite clast in lunar meteorite Arabian Peninsula 007. The petrography, geochronology, and volatile systematics of this clast are explored, along with their implications for the evolution of the lunar magma ocean and early lunar crust.
The diversity in textures and geochemistry observed in impact melt rock clasts in Apollo 16 breccia 67015, and an exploration of their possible provenance
Introduction: Pristine lunar samples returned by the Apollo and Luna missions in the 1960s and 1970s have significantly broadened our understanding of the geological history of the Moon. The material these missions returned to Earth, however, were collected from an area that represents only a small proportion (~5 %) of the entire lunar surface [1]....
