玻璃空间电离辐照着色损伤动力学研究
杜继实1,2, 张涛1,2, 赵丽丽1,2, 宋力昕1,2, 胡行方1,2

Study on Dynamic of Space Ionizing Radiation Induced Coloration in Glasses
DU Ji-Shi1,2, ZHANG Tao1,2, ZHAO Li-Li1,2, SONG Li-Xin1,2, HU Xing-Fang1,2
图6 模拟的特征轨道地球磁场捕获质子 a、地球磁场捕获电子b和太阳耀斑质子c 在不同厚度石英玻璃防电离辐射层防护的K9-HL玻璃中吸收剂量率随深度的变化曲线以及复杂函数拟合. 注: 电离辐照环境采用图3中的数据. 每幅图中都有六条曲线, 自上至下对应的石英玻璃防辐照电离层的厚度分别为2 mm、4 mm、6 mm、8 mm、10 mm、12 mm
Fig. 6 Simulated absorbed dose rate distribution curves of trapped proton a, trapped electron b, solar flare proton c and their complex function fits. Note: radiation source of Fig. 3 is used here. There are six curves in every figure, and from top to bottom, the thicknesses of silica glass anti-radiation layers are 2 mm, 4 mm, 6 mm, 8 mm, 10 mm, 12 mm