[1] |
TODD A M M. Emerging Industrial Applications of Linacs[C]//in Proc. Intl. LINAC Conf. Chicago, IL, August 2328, 1998:1036. |
[2] |
POTTIER J. Nucl Instrum Meth B, 1989, 40/41:943. |
[3] |
ABRAMYAN E A. Industrial Electron Accelerators and Applications[M]. Washington:Hemisphere, 1988. |
[4] |
CAO Shuchun, ZHANG Zimin, LI Zhongping, et al. Nucl Tech, 2009, 32(3):206. (in Chinese) (曹树春, 张子民, 李中平, 等.核技术, 2009, 32(3):206.) |
[5] |
LI Guohua, TANG Huaping, Liu Jinsheng, et al. Prototype of Multilament Electron Curtain Accelerator, NST. 24(2013). S010201. |
[6] |
HIDEO H, YOSHIHITO N. THE EGS5 CODE SYSTEM. Stanford Linear Accelerator Center. 2013. |
[7] |
MOLI ERE G Z. Theorie der Streuung schneller geladener Teilchen. I. Einzelstreuung amabgeschirmten Coulomb-Field. Z. Naturforsch, 1947, 2a:133. |
[8] |
MOLIÈRE G Z. Theorie der Streuung Schneller Geladener Teilchen. II. Mehrfachund Vielfachstreuung. Z. Naturforsch, 1948, 3a:78. |
[9] |
China National Nuclear Corporation. EJ/T 971-1995 General Speci cation for Electron Accelerator for Radiation Processing of China National Nuclear Corporation[S]. Beijing:China National Nuclear Corporation, 1995. (in Chinese) (中国核工业总公司. EJ/T 971-1995中国核工业总公司辐射加工用电子加速器通用规范[S]. 北京:中国核工业总公司, 1995.) |