固体核径迹探测器中径迹的形态和数目能够反应入射粒子的种类、数目、入射角度和入射能量等信息。根据测量关注点的不同,径迹测量系统大致可以分为两类:径迹密度测量系统和径迹3D识别系统。大部分径迹密度测量系统基于低放大倍数的普通光学显微镜进行图像识别~([1-4])。有研究也尝试用高分辨率扫描仪测量径迹密度~([5])。针对径迹密度测量时的特殊情况,文献对高径迹密度~([6])和超薄固体核径迹探测器~([7]) The shape and number of tracks in a solid nuclear track detector can reflect information such as the type, number, angle of incidence and incident energy of incident particles. According to different measurement concerns, track measurement system can be divided into two categories: track density measurement system and track 3D identification system. Most track densitometry systems perform image recognition based on low-magnification ordinary light microscopes ([1-4]). Some studies have also tried to use high-resolution scanner to measure the track density ~ ([5]). Aiming at the special case of track density measurement, the literature on high track density ~ ([6]) and ultra-thin solid nuclear track detector ~ ([7])