Development of Fragmentation Cross Sections of <sup>28</sup>Si at Intermediate and High Energies

LI Junsheng; DANG Yinghua; ZHANG Donghai

doi:10.11804/NuclPhysRev.34.03.545

In this paper, the development of the total and partial charge changing cross sections of ²⁸Si ions beam in different targets using the CR-39 detectors are reviewed. The newest experimental results of the total and partial charge changing cross sections of ²⁸Si in carbon target at 723 AMeV are presented. The dependence of the target mass and the cross sections of ²⁸Si including the total and the partial charge changing cross sections are discussed. It is found that the total charge changing cross sections of ²⁸Si are independent of the energy when the energy of the ions beam is greater than 200 AMeV. The partial charge changing cross sections show an obviously odd-even effect, and increase with the increasing of the mass number of the target.

Development of Fragmentation Cross Sections of ²⁸Si at Intermediate and High Energies

Institute of Modern Physics, Shanxi Normal University, Linfen 041004, Shanxi, China

Funds: National Natural Science Foundation of China(11075100, 11565001); Natural Science Foundation of Shanxi Province(2011011001-2); Fund Program for the Scientific Activities of Selected Returned Overseas Professionals in Shanxi Province(2011-058)

Received Date: 2016-12-07

Rev Recd Date: 2017-05-08

Publish Date: 2017-07-18

Key words:

Abstract: In this paper, the development of the total and partial charge changing cross sections of ²⁸Si ions beam in different targets using the CR-39 detectors are reviewed. The newest experimental results of the total and partial charge changing cross sections of ²⁸Si in carbon target at 723 AMeV are presented. The dependence of the target mass and the cross sections of ²⁸Si including the total and the partial charge changing cross sections are discussed. It is found that the total charge changing cross sections of ²⁸Si are independent of the energy when the energy of the ions beam is greater than 200 AMeV. The partial charge changing cross sections show an obviously odd-even effect, and increase with the increasing of the mass number of the target.

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[1]	GAO Xin, YANG Shengsheng, NIU Xiaole, et al. Vacuum & Cryogenics, 2007, 13(1):41. (in Chinese) (高欣, 杨生胜, 牛小乐, 等. 真空与低温, 2007, 13(1):41.)
[2]	ZEITLIN C, GUETERSLOH S, HEILBRONN L, et al. Advances in Space Research, 2010, 46:728.
[3]	ZHOU Dazhuang, WANG Shijin, ZHANG Binquan, et al. Manned Spaceflight, 2013, 19(4):81. (in Chinese) (周大庄, 王世金, 张斌全, 等. 载人航天, 2013, 19(4):81.)
[4]	SIHVER L, LANTZ M, TAKECHI M, et al. Advances in Space Research, 2012, 49:812.
[5]	WEI Shihua, LIU Qian. Nuclear Physics Review, 2008, 25(4):402. doi:10.11804/NuclPhysRev.25.04.402. (in Chinese) (魏世华, 刘倩. 原子核物理评论, 2008, 25(4):402.)
[6]	WANG Guiling, LIU Yuquan, WEI Zengquan. Nuclear Techniques, 1994, 17(3):136. (in Chinese) (王桂玲, 刘玉岩, 卫增泉. 核技术, 1994, 17(3):136.)
[7]	WEYRATHER W K, KRAFT G. Radiotherapy and Oncology, 2004, 73(Suppl2):S161.
[8]	YE Fei, LI Qiang. Nuclear Physics Review, 2010, 27(3):309. doi:10.11804/NuclPhysRev.27.03.309. (in Chinese) (叶飞, 李强. 原子核物理评论, 2010, 27(3):309.)
[9]	GUPTA R, KUMAR A. Radiation Physics and Chemistry, 2013, 92:8.
[10]	FLESCH F, IANCU G, HEINRICH W, et al. Rad Meas, 2001, 34:237.
[11]	TOGO V, BALESTRA S, CECCHINI S, et al. Nucl Instr Meth A, 2007, 580:58.
[12]	BRECHTMANN C, HEINRICH W. Phys Rev C, 1989, 39(6):2222.
[13]	YAMAGUCHI T, FUKUDA S, FAN G W, et al. Phys Rev C, 2010, 82:014609.
[14]	ZEITLIN C, MILLER J, GUETERSLOH S, et al. Nucl Phys A, 2007, 784:341.
[15]	GUPTA R, KUMAR A. The European Physical Journal A, 2013, 49:98.
[16]	CECCHINI S, DEKHISSI H, GIACOMELLI G, et al. Astroparticle Physics, 1993, 1:369.
[17]	CECCHINI S, CHIARUSI T, GIACOMELLI G, et al. Nucl Phys A, 2008, 807:206.
[18]	LI JunSheng, ZHANG Donghai, CHENG Jinxia, et al. Chinese Journal of Physics, 2016, 54:314.
[19]	WEBBER W R, KISH J C, SCHRIER D A. Phys Rev C, 1990, 41:533.
[20]	LETAW J R, SILBERBERG R, TSAO C H. Astrophys J, 1983, 51(Suppl):271.
[21]	OTA S, KODAIRA S, YASUDA N, et al. Rad Meas, 2008, 43:S195.
[22]	GUPTA R, KUMAR A, GIACOMELLI G, et al. Nucl Instr Meth A, 2012, 694:32.
[23]	GUPTA R, KUMAR A, GIACOMELLI G, et al. Rad Meas, 2012, 47:1023.
[24]	KOX S, GAMP A, PERRIN C, et al. Phys Rev C, 1987, 35:1678.
[25]	SUMMERER K, BLANK B. Phys Rev C, 2000, 61:034607.
[26]	FENG Jun, SHEN Wenqing, WANG Bing, et al. High Energy Physics and Nuclear Physics, 1989, 13(5):459. (in Chinese) (冯军, 沈文庆, 王柄, 等. 高能物理与核物理, 1989, 13(5):459.)
[27]	TOWNSEND L W, CUCINOTTA F A, HEILBRONN L H, et al. Adv Space Res, 2002, 30(4):907.
[28]	BRADT H L, PETERS B. Phys Rev, 1950, 77(1):54.
[29]	KODAIRA S, YASUDA N, KAWASHIMA H, et al. Rad Meas, 2009, 44:861.

Development of Fragmentation Cross Sections of ²⁸Si at Intermediate and High Energies

doi: 10.11804/NuclPhysRev.34.03.545

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通讯作者: 陈斌, bchen63@163.com

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Development of Fragmentation Cross Sections of ²⁸Si at Intermediate and High Energies

doi: 10.11804/NuclPhysRev.34.03.545

Institute of Modern Physics, Shanxi Normal University, Linfen 041004, Shanxi, China

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Development of Fragmentation Cross Sections of 28Si at Intermediate and High Energies

doi: 10.11804/NuclPhysRev.34.03.545

Abstract

References

Proportional views

通讯作者: 陈斌, bchen63@163.com

Article Metrics

Proportional views

Development of Fragmentation Cross Sections of 28Si at Intermediate and High Energies

doi: 10.11804/NuclPhysRev.34.03.545

Institute of Modern Physics, Shanxi Normal University, Linfen 041004, Shanxi, China

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Development of Fragmentation Cross Sections of ²⁸Si at Intermediate and High Energies

Development of Fragmentation Cross Sections of ²⁸Si at Intermediate and High Energies