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AGU25 Mineral Physics & Planetary Sciences Session--Call for Abstracts

YZ
Yanyao Zhang
Wed, Jul 23, 2025 6:56 PM

Dear colleagues,

We invite abstract submissions to our AGU 2025 session: Connecting Planet Interior Modeling with Experiments and First-Principles Calculations

📅 Abstract Deadline: 30 July 2025 23:59 EDT/03:59 +1 GMT
🔗 Session and submission Link: https://agu.confex.com/agu/agu25/prelim.cgi/Session/247720

Session description:

Topic: Mineral physics properties under extreme conditions to inform interior structure and dynamics of planets

Properties: Equation of state, elasticity, texture/plasticity, transport properties, phase transitions, melting behavior, chemical reactions, etc.

Experimental approaches: static and dynamic compression, laboratory spectroscopies, synchrotron radiation, X-ray free electron laser, etc.

Computational methods: First-principles calculations, molecular dynamics simulations, machine learning techniques, etc.

Modeling: Seismic velocity, mass-radius relationship, magma ocean crystallization, oxygen fugacity,  gas speciation, core formation, etc.

Interdisciplinary studies combining experimental, computational, and modeling approaches are especially encouraged!

Conveners:

Yanyao Zhang | Stanford | yanyaozh@stanford.edu

Caroline Dorn | ETH Zürich | dornc@phys.ethz.ch

Xuehui Wei | ASU | xwei47@asu.edu

William R Palfey | Caltech | wpalfey@caltech.edu

Thank you!

Cheers,
Yanyao

Dear colleagues, We invite abstract submissions to our AGU 2025 session: Connecting Planet Interior Modeling with Experiments and First-Principles Calculations 📅 Abstract Deadline: 30 July 2025 23:59 EDT/03:59 +1 GMT 🔗 Session and submission Link: https://agu.confex.com/agu/agu25/prelim.cgi/Session/247720 Session description: 1. Topic: Mineral physics properties under extreme conditions to inform interior structure and dynamics of planets 1. Properties: Equation of state, elasticity, texture/plasticity, transport properties, phase transitions, melting behavior, chemical reactions, etc. 1. Experimental approaches: static and dynamic compression, laboratory spectroscopies, synchrotron radiation, X-ray free electron laser, etc. 1. Computational methods: First-principles calculations, molecular dynamics simulations, machine learning techniques, etc. 1. Modeling: Seismic velocity, mass-radius relationship, magma ocean crystallization, oxygen fugacity, gas speciation, core formation, etc. Interdisciplinary studies combining experimental, computational, and modeling approaches are especially encouraged! Conveners: Yanyao Zhang | Stanford | yanyaozh@stanford.edu Caroline Dorn | ETH Zürich | dornc@phys.ethz.ch Xuehui Wei | ASU | xwei47@asu.edu William R Palfey | Caltech | wpalfey@caltech.edu Thank you! Cheers, Yanyao