基于计算热力学的高强度、放射性铜铬合金的稀有事件搜索设计

IF 1.4 3区物理与天体物理 Q3 INSTRUMENTS & INSTRUMENTATION

Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment Pub Date : 2025-08-23 DOI:10.1016/j.nima.2025.170970

D. Spathara

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引用次数: 0

摘要

直接暗物质探测和中微子性质的研究需要具有极低背景水平（包括放射性）的探测器系统。无添加剂的电铸铜除了具有一系列优点外，还表现出非凡的放射性，使其成为稀有事件搜索实验中机械和结构部件的首选材料。为了满足人们对高机械强度材料日益增长的需求，人们不断发展铜铬合金。早期的研究探索了通过电沉积和热加工来合成这些合金。提出了一种材料设计方法来优化制造和热加工阶段。它由基于合金成分的热力学和动力学特性的材料建模工具辅助，通过预测性能和材料性能，可以更快地开发新材料。通过将模拟与先前报道的实验研究进行比较，并提出改进的热处理方法，证明了这种方法。

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Design of high-strength, radiopure copper–chromium alloys for rare-event searches assisted by computational thermodynamics

Direct Dark Matter detection and studies on the nature of neutrinos demand detector systems with extremely low background levels, including from radioactivity. Additive-free, electroformed copper, in addition to a set of advantages, exhibits exceptional radiopurity, making it the material of choice for mechanical and structural components for rare-event searches experiments. To satisfy the increasing demand for materials with superior mechanical strength, the development of copper–chromium alloys is pursued. Early investigations explored the synthesis of these alloys by electrodeposition and thermal processing. A materials-design approach is proposed to optimize the fabrication and thermal processing stages of manufacturing. It is assisted by materials modeling tools based on the thermodynamic and kinetic properties of alloy compositions, which enables faster development of novel materials by predicting properties and materials performance. This approach is demonstrated by comparing simulations with previously reported experimental investigations and proposing improved thermal processing.

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来源期刊

Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment 物理-光谱学

CiteScore

3.20

自引率

21.40%

发文量

787

审稿时长

1 months

期刊介绍： Section A of Nuclear Instruments and Methods in Physics Research publishes papers on design, manufacturing and performance of scientific instruments with an emphasis on large scale facilities. This includes the development of particle accelerators, ion sources, beam transport systems and target arrangements as well as the use of secondary phenomena such as synchrotron radiation and free electron lasers. It also includes all types of instrumentation for the detection and spectrometry of radiations from high energy processes and nuclear decays, as well as instrumentation for experiments at nuclear reactors. Specialized electronics for nuclear and other types of spectrometry as well as computerization of measurements and control systems in this area also find their place in the A section. Theoretical as well as experimental papers are accepted.