Elastic geobarometry yielding a faithful sublithospheric depth for a ferropericlase inclusion in diamond
Author:
Funder
China Scholarship Council
European Research Council
Publisher
Elsevier BV
Subject
Geochemistry and Petrology,Geology
Reference36 articles.
1. Non-destructive in situ study of plastic deformations in diamonds: X-ray diffraction topography and μFTIR mapping of two super deep diamond crystals from São Luiz (Juina, Brazil);Agrosì;Crystals,2017
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3. EosFit-Pinc: a simple GUI for host–inclusion elastic thermobarometry;Angel;Am. Mineral.,2017
4. Crystallographic methods for non-destructive characterization of mineral inclusions in diamonds;Angel;Rev. Mineral. Geochem.,2022
5. Depth of diamond formation obtained from single periclase inclusions;Anzolini;Geology,2019
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