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Meeting	MS&T23: Materials Science & Technology
Symposium	Mesoscale Phenomena in Functional Polycrystals and Their Nanostructures
Presentation Title	Optical Properties of Chalcophosphate Materials in the Visible and Infrared Range
Author(s)	Mariacristina Rumi
On-Site Speaker (Planned)	Mariacristina Rumi
Abstract Scope	We are investigating the linear and nonlinear optical properties in the visible and infrared range of chalcophosphates with general formula M2P2X6, where X = S, Se, or a mixture of the two, and M = Sn, Pb. Some materials in this class have non-centrosymmetric ferroelectric crystal phases at or near room temperature. Sn2P2S6 is a known electro-optic and photorefractive crystal. The effect of Se for S substitution on the Curie temperature, the second harmonic generation efficiency, and the transparency window of these materials will be discussed.

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Causality and Machine Learning Models of Ferroics From Atomistic Simulations

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Mesoscale Dipoles via Strain Induced Correlations in an Atomic-layer Superlattice

Modeling Local Dielectric Dispersion in Ferroelectric BaTiO3 with Domain Walls

Modeling Thermoelectric Figure of Merit in Complex Materials at Mesoscale

Optical Behavior and Electro-optic Performance in Fine Grained Lead-free Ceramics

Optical Properties of Chalcophosphate Materials in the Visible and Infrared Range

Strain-tuned Quantum Materials

Structure Property Relationships in Complex, Multi-phase, Polycrystalline Materials

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