Bent Crystal Design and Characterization for High-Energy Physics Experiments

Marco Romagnoni, Vincenzo Guidi, Laura Bandiera, Davide De Salvador, Andrea Mazzolari, Francesco Sgarbossa, Mattia Soldani, Alexei Sytov, Melissa Tamisari
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Abstract

Bent crystal are widely used as optics for X-rays, but via the phenomenon of planar channeling they may act as waveguide for relativistic charged particles beam as well, outperforming some of the traditional technologies currently employed. A physical description of the phenomenon and the resulting potential for applications in a particle accelerator is reported. The elastic properties of the anisotropic crystal lattice medium are discussed, introducing different types of curvature which can enable a wide array of bending schemes optimized for each different case features. The technological development of machining strategy and bending solutions useful for the fabrication of crystals suitable in high energy particle manipulations are described. As well as the high precision characterization processes developed in order to satisfy the strict requirements for installation in an accelerator. Finally, the characterization of channeling phenomenon in bent crystal is described, pointing out several experimental setups suitable to comply each specific case constrains.
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用于高能物理实验的弯曲晶体设计和表征
弯曲晶体被广泛用作 X 射线的光学器件,但通过平面沟道现象,它们也可用作相对论带电粒子束的波导,其性能优于目前使用的一些传统技术。本文报告了对这一现象的物理描述以及由此产生的在粒子加速器中的应用潜力。对各向异性晶格介质的弹性特性进行了讨论,引入了不同类型的曲率,从而可以针对每种不同的情况特征优化各种弯曲方案。此外,还介绍了适用于高能粒子操作的晶体制造的加工策略和弯曲方案的技术发展。此外,还介绍了为满足安装在加速器中的严格要求而开发的高精度表征过程。最后,介绍了弯曲晶体中沟道现象的表征,并指出了适用于各种特定情况限制的多个实验装置。
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