β-Delayed Proton Decays Near the Proton Drip Line

XU Shu-Wei; LI Zhang-Kui; XIE Yuan-Xiang; HUANG Wen-Xue; SHU Neng-Chuan; CHEN Yong-Shou; XU Fu-Rong; WANG Kun

Chinese Physics C> 2004, Vol. 28> Issue(S1) : 1-4

β-Delayed Proton Decays Near the Proton Drip Line

Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China2 Department of Nuclear Physics, China Institute of Atomic Energy, Beijing 102413, China3 Department of Technical Physics, Peking University, Beijing 100871, China4 Shanghai Institute for Nuclear Research, Shanghai 201800, China

Abstract
HTML
Reference
Related

PDF

Abstract：
The experimental study on β-delayed proton decays near the proton drip line published by our group over the last 8 years were reviewed and summarized briefly,including first observation of 9 precursors in the rare-earth region and new measurements of 5 nuclei in the mass-90 region near N=Z line with the aid of the “p-γ” coincidence in combination with a He-jet tape transport system.Systematically comparing the experimental data with the current nuclear-model predictions, following points were represented. (1) the experimental half-lives for ⁸⁵Mo and ⁹²Rh as well as the predicted “waiting point”nuclei ⁸⁹Ru and ⁹³Pd are 5—10 times longer than the macroscopic-microscopic model predictions given by Moller et al [At. Data Nucl Data Tables, 66, 131(1997)]. It considerably influences the prediction of mass abundances of the nuclides produced in rp-process. (2) The current-model predictions are not consistent with the experimental spin-parity assignments of the proton drip-line nuclei ¹⁴²Ho and ¹²⁸Pm. However, the nuclear potential energy surface (PES) calculated by using a Woods-Saxon-Strutinsky method reproduced the experimental results. (3) The Alice code overestimated the production reaction cross sections of the studied 9 rare-earth nuclei by one order of magnitude or two, while HIVAP code overestimated them by one order of magnitude approximately.

References

[1]

.Mller P, Nix J R, Myers W D et al. At Data Nucl Data Tables, 1995, 59: 185-3812.Hofmann S. Radiochimica Acta, 1995, 70/71: 93-1053.Sonzogni A A. Nucl. Data Sheets, 2002, 95: 1-294.Schatz H, Aprahamina A, Grres J et al. Phys. Rep.,1998, 294: 167-2635.XU S W, XIE Y X, LI Z K et al. Z. Phys., 1996, A356:227-2286.LI Z K, XU S W, XIE Y X et al. Phys. Rev., 1997, C56:1157-11597.XU S W, LI Z K, XIE Y X et al. Phys. Rev., 1999, C60:061302(R)8.XU S W, LI Z K, XIE Y X et al. Phys. Rev., 2001, C64:0173019.XU S W, LI Z K, XIE Y X et al. Eur. Phys. J., 2001,A12: 1-410.HUANG W X, MA R C, XU S W et al. Phys. Rev., 1999,C59: 2402-240511.LI Z K, XU S W, XIE Y X et al. Eur. Phys. J., 1999, A5:351-35212.XU S W, LI Z K, XIE Y X et al. Eur. Phys. J., 2001,A11: 375-37713.Mller P, Nix J R, Kratz K L. At Data Nucl. Data Tables.,1997, 66: 131-34314.Takahashi K, Yamada M, Kondoh T. At. Data Nucl. Data Tables., 1973, 12: 101-14215.Horiguchi T, Tachibana T, Katakura J. Chart of the Nuclides 2000. Japanese data committee and nuclear data center, 200016.Hirsch M, Staudt A, Muto K et al. At Data Nucl. Data Tables., 1993, 53: 165-17817.Herndl H, Brown A B. Nucl. Phys., 1997, A627: 35-5218.Arseniev D A, Sobiczewski A, Solview V G. Nucl. Phys.,1969, A126: 15-3519.Bengtsson T, Ragnarsson I. Nucl. Phys., 1985, A436:14-80; Firestone R B. Table of Isotopes, 8th ed. 1996,Vol.II, Appedix H, H-7 and H-820.Audi G, Bersillon O, Blachot J et al. Nucl. Phys., 1997,A624: 1-12421.Nazarewicz W, Dudek J, Bengtsson R et al. Nucl. Phys.,1985, A435: 397-44722.Winn W G, Gutbrod H H, Blann M. Nucl. Phys., 1987,A188: 423-42923.Reisdorf W. Z. Phys., 1981, A300: 227-238; Veselsky M.Z. Phys., 1997, A356: 403-410

[1]	LAN Xiao-Gang , HOU Yan , ZHOU Xun-Xiu , JIA Huan-Yu , CAO Zhen , DING Lin-Kai . Study of p-Air Inelastic Cross Section with Directly Arrived Protons at Yangbajing. Chinese Physics C, 2007, 31(6): 513-517.
[2]	XU Qiang , GUO Jian-You , ZHU Sheng-Jiang . Pseudospin Symmetry and Spin Symmetry in Sn Isotopes from the Proton Drip Line to the Neutron Drip Line. Chinese Physics C, 2007, 31(2): 168-172.
[3]	LOU Jian-Ling , LI Zhi-Huan , YE Yan-Lin , CAO Zhong-Xin , JIANG Dong-Xing , HUA Hui , ZHENG Tao , LI Xiang-Qing , GE Yu-Cheng , WU Cui-E , LI Chen , PANG Dan-Yang , LU Fei , FAN Feng-Ying , MA Li-Ying . Property Optimization and Test for β-Delayed Neutron Detection Array. Chinese Physics C, 2006, 30(S2): 205-207.
[4]	XU Shu-Wei , XIE Yuan-Xiang , XING Ye-Bing , XU Fu-Rong , LIU Hong-Liang , LI Zhan-Kui . β-Delayed Proton Decays of ¹⁴⁰Tb and ¹⁴¹Dy as Well as the Spin and Parity of ¹⁴³Dy. Chinese Physics C, 2006, 30(6): 526-529.
[5]	XU Shu-Wei , XIE Yuan-Xiang , LI Zhan-Kui , XU Fu-Rong , LIU Hong-Liang . β-Delayed Proton Decays of ¹³³Sm and ¹⁴⁹Yb. Chinese Physics C, 2006, 30(11): 1067-1070.
[6]	XU Shu-Wei , LI Zhan-Kui , XIE Yuan-Xiang , GUO Wen-Tao . β-Delayed Proton Decays in the Rare-Earth Region Near Drip Line. Chinese Physics C, 2006, 30(S2): 131-135.
[7]	LI Jia-Xing , LI Chen , GUO Zhong-Yan , XIAO Guo-Qing , ZHAN Wenlong , WANG Jian-Song , SUN Zhi-Yu , WANG Meng , CHEN Li-Xin , MAO Rui-Shi , HU Zheng-Guo . Measurement of Total Reaction Cross Section of the Proton Drip-line Nucleus 17Ne on Si Target. Chinese Physics C, 2005, 29(1): 28-31.
[8]	XU Shu-Wei , XIE Yuan-Xiang , XU Fu-Rong , LI Zhan-Kui , WANG Xu-Dong , XING Ye-Bing . Further Identification of the Decay of ¹²⁹Pm Near the Proton Drip Line. Chinese Physics C, 2005, 29(3): 237-239.
[9]	XU Shu-Wei , XIE Yuan-Xiang , LI Zhan-Kui , WANG Xu-Dong . New Nuclide ¹²⁹Pm Near the Proton Drip Line. Chinese Physics C, 2004, 28(2): 158-160.
[10]	WANG Xu-Dong , XU Shu-Wei , LI Zhan-Kui , XIE Yuan-Xiang , WU Zhe-Ying , XU Fu-Rong , GUO Bin , LENG Chang-Geng , WANG Chun-Fang , YU Yong . β-Delayed Proton Decay of ⁹³Pd. Chinese Physics C, 2003, 27(4): 309-312.
[11]	WANG Hong-Wei , JIN Gen-Ming , Wu He-Yu , ZHANG Bao-Guo , XIAO Zhi-Gang , DUAN Li-Min , WEI Zhi-Yong , LI Zu-Yu , LU Zhao-Hui , LIU Yong-Ying , CHEN Ke-Liang , HU Rong-Jiang , ZHU Hai-Dong , CEN Ling , WANG Su-Fang , LI Xiang-Qing , CHEN Tao , HUA Hui . Measurement of β⁺ Delay Proton Decay of ²³Al. Chinese Physics C, 2001, 25(10): 971-976.
[12]	XU Shu-Wei , LI Zhan-Kui , XIE Yuan-Xiang , YU Yong , PAN Qiang-Yan , WANG Chun-Fang , XING Jian-Ping , MA Rui-Chang , CE Yuan-Xiu , WANG Xu-Dong . Nen β-Delayed Proton Decays in the Rare-Enrth Region Near the Proton Drip Line. Chinese Physics C, 2000, 24(S1): 73-80.
[13]	Xu Shuwei¹ , Li Zhankul¹ , Xie Yuanxiang¹ , Pan Qiangyan¹ , Yu Yong¹ , J.Adam² , Wang Chunfang¹ , king Jianping¹ , Hu Qingyuan¹ , Li Shihong¹ , Chen Hongyan¹ , Zhang Tianmei¹ , Jin Genming<sup . Six New Nuclides Near the Proton-drip Line in the Rare-earth Region. Chinese Physics C, 1999, 23(6): 589-593.
[14]	Xu Xiaoji , Huang Wenxue , Ma Ruichang , Gu Zhongdao , Yang Yongfeng , Wang Yanyu , Dong Chengfu . Observation of Beta-Delayed Proton Decay of ⁶⁹Kr. Chinese Physics C, 1997, 21(3): 286-288.
[15]	Xie Yuanxiang , Xu Shuwei , Li Zhankui , Ma Ruichang , Ge Yuanxiu , Wang Chunfang , Huang Wenxue , Zhang Tianmei . Synthesis and Study of the New β-delayed Proton Precursor Ce in the Region of Proton-drip Line. Chinese Physics C, 1997, 21(7): 668-671.
[16]	Xu Xiaoji , Ma Ruichang , Huang Wenxue , Hu Zhiqiang , Guo Junsheng , Guo Yingxiang , Xu Lianlian , Liu Hongye , Luo Yixiao , Wang Shuhong , Kong Dengming , Qiao Jimin . First Observation of β-delayed Proton Decay of the Proton Drip Line Nuclide ¹⁹Na. Chinese Physics C, 1995, 19(3): 203-208.
[17]	ZHOU Zong-Yuan . HALF-LIFE MEASUREMENT OF THE β-DELAYED TWO-PROTON DECAY NUCLIDE ²⁶P. Chinese Physics C, 1988, 12(2): 246-251.
[18]	GOU Liang , HUANG Tao . PROTON DECAY RATE AND THE PROTON WAVEFUNCTION. Chinese Physics C, 1984, 8(1): 45-51.
[19]	GOU Liang , HAO Chun . TWO-BODY DECAY OF THE PROTON. Chinese Physics C, 1983, 7(4): 437-442.
[20]	Ding Lin-kai , Zhu Qing-qi . MONTE-CARLO SIMULATION OF COSMIC RAY ANTIPROTON INTENSITY. Chinese Physics C, 1980, 4(6): 735-740.

Access

Get Citation

XU Shu-Wei, LI Zhang-Kui, XIE Yuan-Xiang, HUANG Wen-Xue, SHU Neng-Chuan, CHEN Yong-Shou, XU Fu-Rong and WANG Kun. β-Delayed Proton Decays Near the Proton Drip Line[J]. Chinese Physics C, 2004, 28(S1): 1-4.

RIS(for EndNote,Reference Manager,ProCite)

BibTex

Txt

Milestone

Received: 2004-12-30
Revised: 1900-01-01

Article Metric

Article Views(1359)
PDF Downloads(1736)
Cited by(0)

Policy on re-use

To reuse of subscription content published by CPC, the users need to request permission from CPC, unless the content was published under an Open Access license which automatically permits that type of reuse.

通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

β-Delayed Proton Decays Near the Proton Drip Line

Corresponding author: XU Shu-Wei,

Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China2 Department of Nuclear Physics, China Institute of Atomic Energy, Beijing 102413, China3 Department of Technical Physics, Peking University, Beijing 100871, China4 Shanghai Institute for Nuclear Research, Shanghai 201800, China

Received Date: 2004-12-30

Accepted Date: 1900-01-01

Available Online: 2004-04-02

Abstract: The experimental study on β-delayed proton decays near the proton drip line published by our group over the last 8 years were reviewed and summarized briefly,including first observation of 9 precursors in the rare-earth region and new measurements of 5 nuclei in the mass-90 region near N=Z line with the aid of the “p-γ” coincidence in combination with a He-jet tape transport system.Systematically comparing the experimental data with the current nuclear-model predictions, following points were represented. (1) the experimental half-lives for ⁸⁵Mo and ⁹²Rh as well as the predicted “waiting point”nuclei ⁸⁹Ru and ⁹³Pd are 5—10 times longer than the macroscopic-microscopic model predictions given by Moller et al [At. Data Nucl Data Tables, 66, 131(1997)]. It considerably influences the prediction of mass abundances of the nuclides produced in rp-process. (2) The current-model predictions are not consistent with the experimental spin-parity assignments of the proton drip-line nuclei ¹⁴²Ho and ¹²⁸Pm. However, the nuclear potential energy surface (PES) calculated by using a Woods-Saxon-Strutinsky method reproduced the experimental results. (3) The Alice code overestimated the production reaction cross sections of the studied 9 rare-earth nuclei by one order of magnitude or two, while HIVAP code overestimated them by one order of magnitude approximately.

HTML

Reference (1)

β-Delayed Proton Decays Near the Proton Drip Line

Abstract：

References

Access

Article Metrics

Metrics

通讯作者: 陈斌, bchen63@163.com

Email This Article