材料的研究
通过利用低原子序数(Z)元素(如氢)对中子的强衰减及其对高Z元素基材料的高穿透能力,中子成像/层析成像可以以非破坏性方式对广泛的材料配置进行深入分析。
中子-based diagnostics can provide information on the inner structure, damages, authenticity, manufacturing and restoration processes of cultural heritage artefacts including for example metal objects (e.g. lead, bronze or iron-based weaponry or statues), ceramics, or samples combining metallic and organic materials (e.g. wood, adhesives, soil, leather, lacquer). It can also provide quantitative physiological investigation of fossilised artefacts.
在地质学中,这种技术可以提供岩石形成过程的信息,它们的晶体相和随温度和压力的行为,宏观应变/应力/内部裂缝,多孔系统和流动系统。在行星科学中,它可用于铁基陨石的结构分类。
Other applications relevant to this section include the study of structural robustness of construction material (cement/concrete), visualisation of moisture and multiphase flows in porous and hygroscopic medias, or study of engineered materials structural (e.g. crystalline phases, microstructures, heterogeneities, stress/strain/cracks through Bragg-edge, Small Angle Neutron Scattering (SANS) or Grating Interferometry imaging techniques) and magnetic properties.
与锂基闪烁体耦合的透镜,和或独特的Balor-X sCMOS相机提供无与伦比的快速54 FPS全帧读数,16百万像素传感器,具有低噪音和高动态范围读数,Andor'siKon-L和伊康XLCCD同时提供大视场和高动态范围,同时近地天体或Zyla sCMOS同时提供快速采集率和高动态范围。如果需要高时解决ANDORiStar sCMOS提供无与伦比的帧速率,纳米币门控功能。