On-the-fly Autonomous Control of Neutron Diffraction via Physics-Informed Bayesian Active Learning

Neutron scattering is a unique and versatile characterization technique for probing the magnetic structure and dynamics of materials. However, instruments at neutron scattering facilities in the world is limited, and instruments at such facilities are perennially oversubscribed. We demonstrate a sig...

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Bibliographic Details
Published in:arXiv.org 2022-03
Main Authors: Austin McDannald, Frontzek, Matthias, Savici, Andrei T, Doucet, Mathieu, Rodriguez, Efrain E, Meuse, Kate, Opsahl-Ong, Jessica, Samarov, Daniel, Takeuchi, Ichiro, A Gilad Kusne, Ratcliff, William
Format: Article
Language:English
Subjects:
Active learning
Autonomous navigation
Bayesian analysis
Machine learning
Magnetic structure
Neel temperature
Neutron diffraction
Neutron scattering
Neutrons
Statistical inference
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Summary:Neutron scattering is a unique and versatile characterization technique for probing the magnetic structure and dynamics of materials. However, instruments at neutron scattering facilities in the world is limited, and instruments at such facilities are perennially oversubscribed. We demonstrate a significant reduction in experimental time required for neutron diffraction experiments by implementation of autonomous navigation of measurement parameter space through machine learning. Prior scientific knowledge and Bayesian active learning are used to dynamically steer the sequence of measurements. We developed the autonomous neutron diffraction explorer (ANDiE) and used it to determine the magnetic order of MnO and Fe1.09Te. ANDiE can determine the Neel temperature of the materials with 5-fold enhancement in efficiency and correctly identify the transition dynamics via physics-informed Bayesian inference. ANDiE's active learning approach is broadly applicable to a variety of neutron-based experiments and can open the door for neutron scattering as a tool of accelerated materials discovery.
ISSN:2331-8422
DOI:10.48550/arxiv.2108.08918