LMS Seminars
Assessing Zero-Point Motion Effects in MC3D via Machine Learning Interatomic Potentials
by
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Europe/Zurich
OVGA/200
OVGA/200
Description
Density functional theory (DFT) enables accurate phonon calculations but remains computationally demanding for large-scale applications. Machine learning interatomic potentials (MLIPs) offer a more efficient alternative, but their application to phonon zero-point motion has not yet been extensively explored [1]. This work presents a first quantification of MLIP accuracy in estimating phonon zero-point motion, considering materials from the MC3D database [2].
[1] Loew et al., npj Computational Materials 11, 178 (2025) ;
Organised by
Laboratory for Materials Simulations (LMS)
Dr Matthias Krack