Analysis of the Energy Autocorrelation Functions in Dissipative Heavy Ion Collision of <SUP>27</SUP>Al+<SUP>27</SUP>Al

WANG Qi; LI Song-Lin; TIAN Wen-Dong; LU Jun; HU Peng-Yun; LUO Yi-Xiao

Chinese Physics C> 2001, Vol. 25> Issue(6) : 500-505

Analysis of the Energy Autocorrelation Functions in Dissipative Heavy Ion Collision of ²⁷Al+²⁷Al

Institute of Modern Physics,The Chinese Academy of Sciences,Lanzhou 730000,China

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Abstract：
The excitation functions of the dissipative fragments emitted from the reaction of ²⁷Al+²⁷Al have been measured in the energy region from 114MeV to 127MeV in steps of 200keV. The detection system covered continuous angles from 10° to 57° in laboratory system. The energy autocorrelation functions of the dissipative fragments have been analyzed by using different approaches,especially using the statistical nuclear reaction model with memory. The results indicate that the intermediate dinuclear system formed in the dissipative process is set in a damped coherent nuclear rotation which causes the nonself averaging oscillation structure in the excitation functions and originates from a typical quantum chaotic motion.

References

[1]

. De Rosa A,Inglima G,Russo V et al.Phys.Lett.,1985,B160:2392. Glaesner A,Dunweber M,Hering W et al.Phys.Lett.,1986,B169:1533. Suomijarvi T,Berthier B,Lucas R et al.Phys.Rev.,1987,C63:184. Pappalardo G.Nucl.Phys.,1988,A488:395c5. Cardella G,Papa M,Pappalardo G et al.Z.Phys.,1989,A332:1956. Papa M,Cardeila G,Di Pietro A et al.Z.Phys.,1995,A353:2057. WAND Qi,LI Song-Lin,LU Jun et al.Chin.Phys.Lett.,1993,10:6568. Rizzo F,Cardella G,De Rosa A et al.Z.Phys.,1994,A349:1699. WAND Qi,LU Jun,XU Hu-Shan et al.Phys.Lett.,1996,B388:46210. Berceanu I,Andronic A,Duma M et al.Phys.Rev.,1998,C57:235911. Richter A.In:Nuclear Spectroscopy and Reactions,ed.J.Cemy Part B,1974,34312. Ericson T.Ann.Phys.,1963,23:39013. Brink D M,Dietrick K.Z.Phys.,1987,A326:714. KUN S Y.Phys.Lett.,1991,B257:24715. KUN S Y,Weidenmuller H A.In:Proc.Inter.Conf.on Nucl.Reaction Mechanisms,Varena,Italy,June 10,1991,25916. KUN S Y.Nucl.Phys.,1995,A583:275c17. KUN S Y.Z.Phys.,1997,A357:25518. KUN S Y.Z.Phys.,1997,A357:27119. KUN S Y.Z.Phys.,1997,A357:367

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[2]	HAN Jian-Long , WANG Qi , DONG Yu-Chuan , LI Song-Lin , DUAN Li-Min , WU He-Yu , XU Hua-Gen , CHEN Ruo-Fu , XU Hu-Shan , BAI Zhen , LI Zhi-Chang , LU Xiu-Qin , ZHAO Kui , , . Rotation and Deformation of the Dinuclear System Formed in Dissipative Reaction of ¹⁹F+²⁷Al. Chinese Physics C, 2006, 30(7): 612-615.
[3]	DONG Yu-Chuan , WANG Qi , LI Song-Lin , DUAN Li-Min , WU He-Yu , XU Hua-Gen , CHEN Ruo-Fu , XU Hu-Shan , HAN Jian-Long , LI Zhi-Chang , LU Xiu-Qin , ZHAO Kui , ZHOU Ping , . Angular Distributions and Angular Dispersions of the Dissipative Products in19F+27Al Reaction. Chinese Physics C, 2005, 29(2): 147-151.
[4]	HAN Jian-Long , WANG Qi , DONG Yu-Chuan , LI Song-Lin , DUAN Li-Min , WU He-Yu , XU Hua-Gen , CHEN Ruo-Fu , XU Hu-Shan , BAI Zhen , LI Zhi-Chang , LU Xiu-Qin , ZHAO Kui , , . Rotation and Decay of the Dinuclear System Formed in Dissipative Reaction of 19F+27Al. Chinese Physics C, 2005, 29(12): 1142-1145.
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[7]	Wang Qi , Tian Wendong , Li Songlin , Lu Jun , Jiang Zhonghe , Hu Pengyun . Extraction of Reaction Time in the ²⁷Al+²⁷Al Dissipative Collision. Chinese Physics C, 1999, 23(1): 39-43.
[8]	Tian Wendong , Wang Qi , Li Songlin , Lu Jun , Luo Yixiao . Measurement of Excitation Function and Analysis of StatisticalProperty in ²⁷Al+²⁷Al mssipative Reaction. Chinese Physics C, 1999, 23(4): 334-339.
[9]	Ye Wei , Shen Wenqing , Ma Yugang , Feng Jun . Azimuthal Distribution and Azimuthal Correlation of the Particles in 10.6MeV/u ⁸⁴Kr+²⁷Al Collision. Chinese Physics C, 1997, 21(1): 1-7.
[10]	He Zhiyong¹ , J.Peter² , J.C.Angelique² , G.Bizard² , R.Brou² , D.Cussol² , A.Kerambrun² , J.P.Patry² , R.Regimbart² , J.C.Steckmeyerr² , B.Tamain² , E.Vient² , G.Auger³ , C.Cabot<sup . Study of Collective Flow for ⁶⁴Zn+²⁷Al, Collisions at 57 MeV/u. Chinese Physics C, 1994, 18(9): 800-806.
[11]	YIN Xu , SHEN Wen-Qing , ZHU Yong-Tai , ZHAN Wen-Long , FENG En-Pu , XIE Yuan-Xiang , WANG Qi , LI Song-Lin . THE RESEARCH OF THE DISSIPATION PROCESS AND THE NUCLEON TRANSFER PRODUCED BY 80.9MeV ¹⁶O ON ²⁷Al. Chinese Physics C, 1988, 12(4): 521-528.
[12]	SHEN Wen-Qing , ZHU Yong-Tai , ZHAN Wen-Long , GUO Zhong-Yan , YIN Shu-Zhi , QIAO Wei-Min , WU En-Jiu . INVESTIGATION OF ¹⁶O+²⁷Al REACTION AT BOMBARDING ENERGIES BELOW 5.3MeV/A. Chinese Physics C, 1987, 11(2): 250-258.
[13]	SHEN Wen-Qing , ZHAN Wen-Long , ZHU Yong-Tai , YIN Shu-Zhi , GUO Zhong-Yan , QI Wei-Min , FAN Guo-Ying , JIN Gen-Ming , LI Song-Lin , ZHANG Zhen , ZHANG Yu-Hu . COINCIDENCE MEASUREMENT BETWEEN α-PARTICLES AND PROJECTILE-LIKE FRAGMENTS IN REACTION OF 82.7MeV ¹⁶O ON ²⁷Al. Chinese Physics C, 1987, 11(1): 104-110.
[14]	ZHAN Wen-Long , SHEN Wen-Qing , ZHU Yong-Tai , QIAO Wei-Min , YIN Shu-Zhi , FAN Guo-Ying , JIN Gen-Ming , LI Song-Ling . THE STUDY OF α-EMISSION INDUCED BY ¹⁶O ON ²⁷Al. Chinese Physics C, 1986, 10(1): 63-67.
[15]	FENG En-Pu , WANG Qi , ZHU Yong-Tai , YIN Xu , MIAO He-Bin , SUN Shu-Ming , LI Song-Lin , WU Zhong-Li , FAN Guo-Ying , XIE Yuan-Xiang , ZHAN Wen-Long . STUDY OF DEEP INELASTIC COLLISION ¹²C+²⁷Al AT ENERGY 61.8MeV. Chinese Physics C, 1986, 10(3): 323-329.
[16]	SHEN Wen-Qing , YIN Shu-Lan , GUO Zhong-Yan , ZHAN Wen-Long , ZHU Yong-Tai , JIN Gen-Ming , QIAO Wei-Min , WU En-Jiu , JIANG Cheng-Lie . MEASURMENT OF PROJECTILE-LIKE FRAGMENTS PRODUCED BY 80.6MeV¹⁶O ON ²⁷Al. Chinese Physics C, 1985, 9(3): 332-340.
[17]	XIE Yuan-Xiang , WU Guo-Hua , ZHU Yong-Tai , MIAO Rong-Zhi , FENG En-Pu , YIN Xu , MIAO He-Bin , CAI Jing-Xiang , SHEN Wen-Qing , SUN Shu-MiNG , WEI Jian-Jun , LI Song-Lin . MEASUREMENT AND ANALYSIS OF EMITTED α PARTICLES IN REACTIONS OF ¹²C BOMBARDING ¹²C,²⁷Al AND ^natCa. Chinese Physics C, 1985, 9(1): 71-76.
[18]	XIE Yuan-Xiang , ZHU Young-Tai , FEN En-Pu , YIN Xu , MIAO He-Bing , CAI Jing-Xiang , LI Fa-Wei , SHEN Wen-Qing , SUN Shu-Ming , WEI Jian-Jun , LI Song-Ling , XIAO Qing-Xian , WANG Qi , JIA Sheng-Ming , DUO Han-Hong . INVESTIGATION OF DIC FOR REACTION ¹²C+²⁷Al AT ENERGY 68MeV AND FOR REACTION ¹²C+^natCa AT ENERGY 68.6MeV. Chinese Physics C, 1984, 8(6): 748-754.
[19]	SHEN Wen-Qing , QIAO Wei-Min , ZHU Yong-Tai , ZHAN Wen-Long . DIFFUSION MODEL ANALYSES OF THE EXPERIMENTAL DATA OF ¹²C+²⁷Al,⁴⁰Ca DISSIPATIVE COLLISIONS. Chinese Physics C, 1984, 8(6): 732-739.
[20]	WU ZHONG-LI , ZHU YONG-TAI , XIA GUO-ZHONG , LIU BU-SHENG , LI FA-WEI , FAN GUO-YING . QUASI-ELASTIC AND DEEP INELASTIC REACTIONS OF ¹²C ON ²⁷Al. Chinese Physics C, 1981, 5(3): 364-371.

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WANG Qi, LI Song-Lin, TIAN Wen-Dong, LU Jun, HU Peng-Yun and LUO Yi-Xiao. Analysis of the Energy Autocorrelation Functions in Dissipative Heavy Ion Collision of ²⁷Al+²⁷Al[J]. Chinese Physics C, 2001, 25(6): 500-505.

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Received: 2000-06-13
Revised: 1900-01-01

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通讯作者: 陈斌, bchen63@163.com

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沈阳化工大学材料科学与工程学院沈阳 110142

Analysis of the Energy Autocorrelation Functions in Dissipative Heavy Ion Collision of ²⁷Al+²⁷Al

Corresponding author: WANG Qi,

Institute of Modern Physics,The Chinese Academy of Sciences,Lanzhou 730000,China

Received Date: 2000-06-13

Accepted Date: 1900-01-01

Available Online: 2001-06-05

Abstract: The excitation functions of the dissipative fragments emitted from the reaction of ²⁷Al+²⁷Al have been measured in the energy region from 114MeV to 127MeV in steps of 200keV. The detection system covered continuous angles from 10° to 57° in laboratory system. The energy autocorrelation functions of the dissipative fragments have been analyzed by using different approaches,especially using the statistical nuclear reaction model with memory. The results indicate that the intermediate dinuclear system formed in the dissipative process is set in a damped coherent nuclear rotation which causes the nonself averaging oscillation structure in the excitation functions and originates from a typical quantum chaotic motion.

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Analysis of the Energy Autocorrelation Functions in Dissipative Heavy Ion Collision of ²⁷Al+²⁷Al

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Analysis of the Energy Autocorrelation Functions in Dissipative Heavy Ion Collision of 27Al+27Al

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Analysis of the Energy Autocorrelation Functions in Dissipative Heavy Ion Collision of 27Al+27Al

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Analysis of the Energy Autocorrelation Functions in Dissipative Heavy Ion Collision of ²⁷Al+²⁷Al

Analysis of the Energy Autocorrelation Functions in Dissipative Heavy Ion Collision of ²⁷Al+²⁷Al