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《中国物理C》(英文)编辑部
2024年10月30日

Energy Transfer of keV Proton in Kapton/Al

  • The energy transfer of proton with energies of 10-300keV in Kapton/Al was simulated with TRIM and SRIM2003. Irradiating test parameter of energy was chosen based on the simulated results. The ground simulation tests of proton irradiations for Kapton/Al films were conducted by using the space synthesis irradiating facility under vacuum at room temperature. The key functional groups in the Kapton/Al films were analyzed quantitatively by means of the surface infrared spectrum technique. The damage cross section of typical molecular bonds was obtained from the variation of the absorbance at the characteristic peaks of key functional groups. The analysis results have shown that the average damage cross section is strongly dependent on the electron energy loss, which is agreement with the simulation results by TRIM. This indicates that the electron energy loss plays an important role in the damage of Kapton/Al by keV proton irradiation. From the tendency of the solar absorptance and the simulation results it can be seen that the proton irradiation effects have the maximum value near the incident energy of 80keV.
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  • [1] . MIN Gui-Rong, GUO Shun. Spacecraft Thermal Control.Second Edition. Beijing: Science Press, 1998. 58-110 (in Chinese)(闵桂荣, 郭舜. 航天器热控制. 第二版. 北京: 科学出版社,1998. 58-110)2. GAO Shen-Bin. Satellite Fabrication Technique. Beijing:Space Navigation Publishing House, 1998. 180-181 (in Chinese)(高慎斌. 卫星制造技术(下). 北京: 宇航出版社, 1998. 180-181)3. Space Science Application Center. Chinese Academy ofScience. Aerospace Environment Manual. Beijing: Chinese Science and Technology Press, 2001. 1-6 (in Chinese)(中国科学院空间科学与应用研究中心. 宇航空间环境手册. 北京: 中国科学技术出版社, 2001. 1-6)4. LI Chun-Dong, YANG De-Zhuang, HE Shi-Yu. Journal of Materials Research, 2002, 17(9): 2442-24445. Costantini J M, Salvetat J P, Brisard F et al. Nuclear Instrument and Methods in Physics Research, 1996, B116:496-5016. Houdayer A, Cerny G, Klemberg-Sapieha J E et al. Nuclear Instrument and Methods in Physics Research, 1997, B131:335-3407. Skurat V E, Barbashev E A, Dorofeev Yu I et al. Applied Surface Science, 1996, 92: 441-4468. ZHU Zhi-Yong, JIN Yun-Fan, LIU Chong-Long. Nuclear Instrument and Methods in Physics Research, 2000, B166:621-6269. SUN You-Mei, ZHU Zhi-Yong, JIN Yun-Fan. Nuclear Instrument and Methods in Physics Research, 2002, B193:219-22510. CHEN Shi-Bin, ZHANG Yi-Men, CHEN Yu-Sheng et al.HEP NP, 2001, 25(4): 365-370 (in Chinese)(陈世彬, 张义门, 陈雨生等. 高能物理与核物理, 2001, 25(4):365-370)11. Gurevich M M. Optical Properties of Paint Coatings.Leninggrad: Chemistry Press, 1984. 71-8212. JING Xu-Ying, CHEN Shi-Di, YAO En-Yun. Infrared Spectrum Practical Manual. Tianjin: Tianjin Science and Technology Press, 1992. 280-287 (in Chinese)(荆煦瑛, 陈式棣, 么恩云等. 红外光谱实用指南. 天津: 天津科学技术出版社, 1992. 280-287)13. Salehpour M, Puglisi O, Calcagno L et al. Nuclear Instrument and Methods in Physics Research, 1984, B2: 752-75614. SUN You-Mei, ZHU Zhi-Yong, LI Chang-Lin. Nuclear Techniques, 2003, 26(12): 931-932(in Chinese) (孙友梅, 朱智勇, 李长林. 核技术, 2003, 26(12): 931-932)
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Get Citation
LI Rui-Qi, LI Chun-Dong, HE Shi-Yu, DI Ming-Wei and YANG De-Zhuang. Energy Transfer of keV Proton in Kapton/Al[J]. Chinese Physics C, 2007, 31(1): 114-118.
LI Rui-Qi, LI Chun-Dong, HE Shi-Yu, DI Ming-Wei and YANG De-Zhuang. Energy Transfer of keV Proton in Kapton/Al[J]. Chinese Physics C, 2007, 31(1): 114-118. shu
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Received: 2006-03-27
Revised: 2006-06-20
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Energy Transfer of keV Proton in Kapton/Al

    Corresponding author: LI Rui-Qi,
  • Key Laboratory of Space Materials & Environment Engineering, Harbin Institute of Technology, Harbin 150001, China

Abstract: The energy transfer of proton with energies of 10-300keV in Kapton/Al was simulated with TRIM and SRIM2003. Irradiating test parameter of energy was chosen based on the simulated results. The ground simulation tests of proton irradiations for Kapton/Al films were conducted by using the space synthesis irradiating facility under vacuum at room temperature. The key functional groups in the Kapton/Al films were analyzed quantitatively by means of the surface infrared spectrum technique. The damage cross section of typical molecular bonds was obtained from the variation of the absorbance at the characteristic peaks of key functional groups. The analysis results have shown that the average damage cross section is strongly dependent on the electron energy loss, which is agreement with the simulation results by TRIM. This indicates that the electron energy loss plays an important role in the damage of Kapton/Al by keV proton irradiation. From the tendency of the solar absorptance and the simulation results it can be seen that the proton irradiation effects have the maximum value near the incident energy of 80keV.

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