Rotation and deformation of the dinuclear system formed in dissipative reaction of Al 19F+27Al

Jian Long Han; Qi Wang; Yu Chuan Dong; Song Lin Li; Li Min Duan; He Yu Wu; Hua Gen Xu; Ruo Fu Chen; Hu Shan Xu; Zhen Bai; Zhi Chang Li; Xiu Qin Lu; Kui Zhao; Ping Zhou; Jian Cheng Liu; Sergey Yu Kun

Rotation and deformation of the dinuclear system formed in dissipative reaction of Al ¹⁹F+²⁷Al

Jian Long Han^*, Qi Wang, Yu Chuan Dong, Song Lin Li, Li Min Duan, He Yu Wu, Hua Gen Xu, Ruo Fu Chen, Hu Shan Xu, Zhen Bai, Zhi Chang Li, Xiu Qin Lu, Kui Zhao, Ping Zhou, Jian Cheng Liu, Sergey Yu Kun

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Excitation functions of the reaction products B, C, N, O, F and Ne emitted from the dissipative reaction of ¹⁹F+²⁷Al have been measured at incident energies from 110.25 MeV to 118.75 MeV in steps of 250 keV. The moments of inertia of the intermediate dinuclear system formed in the reaction are extracted from the energy autocorrelation functions of the products. Comparing the moment of inertia extracted from the experimental data with the calculated one by using the sticking limit, it indicates that the formed dinuclear system has a large deformation in the reaction process.

Original language	English
Pages (from-to)	612-615
Number of pages	4
Journal	Kao Neng Wu Li Yu Ho Wu Li/High Energy Physics and Nuclear Physics
Volume	30
Issue number	7
Publication status	Published - Jul 2006
Externally published	Yes

Cite this

@article{d73faf60fe604784b2c5bf7b2ba26790,

title = "Rotation and deformation of the dinuclear system formed in dissipative reaction of Al 19F+27Al",

abstract = "Excitation functions of the reaction products B, C, N, O, F and Ne emitted from the dissipative reaction of 19F+27Al have been measured at incident energies from 110.25 MeV to 118.75 MeV in steps of 250 keV. The moments of inertia of the intermediate dinuclear system formed in the reaction are extracted from the energy autocorrelation functions of the products. Comparing the moment of inertia extracted from the experimental data with the calculated one by using the sticking limit, it indicates that the formed dinuclear system has a large deformation in the reaction process.",

keywords = "Dissipative reaction, Excitation function, Intermediate dinuclear system, Moment of inertia, deformation",

author = "Han, {Jian Long} and Qi Wang and Dong, {Yu Chuan} and Li, {Song Lin} and Duan, {Li Min} and Wu, {He Yu} and Xu, {Hua Gen} and Chen, {Ruo Fu} and Xu, {Hu Shan} and Zhen Bai and Li, {Zhi Chang} and Lu, {Xiu Qin} and Kui Zhao and Ping Zhou and Liu, {Jian Cheng} and Kun, {Sergey Yu}",

year = "2006",

month = jul,

language = "English",

volume = "30",

pages = "612--615",

journal = "Kao Neng Wu Li Yu Ho Wu Li/High Energy Physics and Nuclear Physics",

issn = "0254-3052",

publisher = "Kexue Chubaneshe/Science Press",

number = "7",

}

TY - JOUR

T1 - Rotation and deformation of the dinuclear system formed in dissipative reaction of Al 19F+27Al

AU - Han, Jian Long

AU - Wang, Qi

AU - Dong, Yu Chuan

AU - Li, Song Lin

AU - Duan, Li Min

AU - Wu, He Yu

AU - Xu, Hua Gen

AU - Chen, Ruo Fu

AU - Xu, Hu Shan

AU - Bai, Zhen

AU - Li, Zhi Chang

AU - Lu, Xiu Qin

AU - Zhao, Kui

AU - Zhou, Ping

AU - Liu, Jian Cheng

AU - Kun, Sergey Yu

PY - 2006/7

Y1 - 2006/7

N2 - Excitation functions of the reaction products B, C, N, O, F and Ne emitted from the dissipative reaction of 19F+27Al have been measured at incident energies from 110.25 MeV to 118.75 MeV in steps of 250 keV. The moments of inertia of the intermediate dinuclear system formed in the reaction are extracted from the energy autocorrelation functions of the products. Comparing the moment of inertia extracted from the experimental data with the calculated one by using the sticking limit, it indicates that the formed dinuclear system has a large deformation in the reaction process.

AB - Excitation functions of the reaction products B, C, N, O, F and Ne emitted from the dissipative reaction of 19F+27Al have been measured at incident energies from 110.25 MeV to 118.75 MeV in steps of 250 keV. The moments of inertia of the intermediate dinuclear system formed in the reaction are extracted from the energy autocorrelation functions of the products. Comparing the moment of inertia extracted from the experimental data with the calculated one by using the sticking limit, it indicates that the formed dinuclear system has a large deformation in the reaction process.

KW - Dissipative reaction

KW - Excitation function

KW - Intermediate dinuclear system

KW - Moment of inertia, deformation

UR - http://www.scopus.com/inward/record.url?scp=33745762664&partnerID=8YFLogxK

M3 - Article

SN - 0254-3052

VL - 30

SP - 612

EP - 615

JO - Kao Neng Wu Li Yu Ho Wu Li/High Energy Physics and Nuclear Physics

JF - Kao Neng Wu Li Yu Ho Wu Li/High Energy Physics and Nuclear Physics

IS - 7

ER -

Rotation and deformation of the dinuclear system formed in dissipative reaction of Al ¹⁹F+²⁷Al

Abstract

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