Deep-learning-based prediction of the tetragonal\(\rightarrow\)cubic transition in davemaoite

Deep-learning-based prediction of the tetragonal\(\rightarrow\)cubic transition in davemaoite

Davemaoite, i.e., \(CaSiO_3\) perovskite (CaPv), is the third most abundant phase in the lower mantle and exhibits a tetragonal-cubic phase transition at high pressures and temperatures. The phase boundary in CaPv has recently been proposed to be close to the cold slab adiabatic and cause mid-mantle...

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Veröffentlicht in:arXiv.org 2024-01
Hauptverfasser: Wu, Fulun, Sun, Yang, Wan, Tianqi, Wu, Shunqing, Wentzcovitch, Renata M
Format: Artikel
Sprache:eng
Schlagworte:
Anomalies
Deep learning
Perovskites
Phase diagrams
Phase transitions
Seismic waves
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Zusammenfassung:Davemaoite, i.e., \(CaSiO_3\) perovskite (CaPv), is the third most abundant phase in the lower mantle and exhibits a tetragonal-cubic phase transition at high pressures and temperatures. The phase boundary in CaPv has recently been proposed to be close to the cold slab adiabatic and cause mid-mantle seismic wave speed anomalies (Thomson et al., Nature 572, 643, 2019). In this study, we utilized accurate deep-learning-based simulations and thermodynamic integration techniques to compute free energies at temperatures ranging from 300 to 3,000 K and pressures up to 130 GPa. Our results indicate that CaPv exhibits a single cubic phase throughout lower-mantle conditions. This suggests that the phase diagram proposed by Thomson et al. requires revision, and mid-mantle seismic anomalies are likely attributable to other mechanisms.
ISSN:2331-8422
DOI:10.48550/arxiv.2401.14588