自主中子衍射探测器ANDiE

Q4 Physics and Astronomy

Neutron News Pub Date : 2023-04-03 DOI:10.1080/10448632.2023.2190714

A. McDannald, M. Frontzek, A. Savici, M. Doucet, Efrain Rodriguez, Kate Meuse, Jessica Opsahl-Ong, Daniel Samarov, I. Takeuchi, W. Ratcliff, A. Gilad Kusne

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引用次数: 0

摘要

我们开发了自主中子衍射探测器(ANDiE)来自主进行中子衍射测量，以发现材料[1]中的磁有序行为。中子衍射是为数不多的可以直接探测材料中原子磁性排列的技术之一。因此，中子衍射设备的光束时间要求很高。ANDiE能够将发现磁性有序参数和有序行为的测量效率提高约5倍，从而有效地利用了波束时间。发现磁性有序参数和有序行为的实验包括在许多温度下测量中子衍射图。通常，这些测量都是临时安排的，并且需要大量的波束时间来执行。相比之下，ANDiE使用贝叶斯推理来确定获得衍射图案的最具信息量的温度。ANDiE分析粉末中子衍射图，推断温度依赖性，选择下一温度，

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ANDiE the Autonomous Neutron Diffraction Explorer

We developed the Autonomous Neutron Diffraction Explorer (ANDiE) to autonomously perform neutron diffraction measurements to discover the magnetic ordering behavior in a material [ 1 ]. Neutron diffraction is one of the few techniques that can directly probe the magnetic ordering of the atoms in a material. As such beamtime at neutron diffraction facilities is in high demand. ANDiE is able to increase the measurement efficiency for discovering the magnetic order parameter and ordering behavior by a factor of about 5, thus making efficient use of the beamtime. The experiments to discover the magnetic order parameter and ordering behavior involve measuring the neutron diffraction patterns at many temperatures. Con-ventionally these measurements are scheduled ad hoc and take a significant amount of beamtime to perform. ANDiE, by contrast, uses Bayesian inference to determine the most informative temperatures at which to acquire diffraction patterns. ANDiE analyzes the powder neutron diffraction patterns, infers the temperature dependence, chooses the next temperature,

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来源期刊

Neutron News Physics and Astronomy-Nuclear and High Energy Physics

CiteScore

0.30

自引率

0.00%

发文量