Effects of the entrance channel mass asymmetry in fusion reactions

BIAN Bao-An; ZHANG Feng-Shou

doi:10.1088/1674-1137/34/10/010

Chinese Physics C> 2010, Vol. 34> Issue(10) : 1602-1608 DOI: 10.1088/1674-1137/34/10/010

Effects of the entrance channel mass asymmetry in fusion reactions

BIAN Bao-An ,
ZHANG Feng-Shou ^,

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Abstract：
The symmetric and asymmetric fusion reaction systems forming the same compound nuclei ²⁶Al, ³⁰Si, ³⁸Ar and ¹⁷⁰Hf are investigated with the frame of improved isospin dependent quantum molecular dynamics model. The entrance channel mass asymmetry dependence of compound nucleus formation is found by analyzing the shell correction energies, the Coulomb barriers and the fusion cross sections. The calculated fusion cross sections agree quantitatively with the experimental data. The results indicate that compound nucleus formation is favorable for the systems with larger mass asymmetry because of the smaller Coulomb contribution to the fusion barrier.

References

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BIAN Bao-An and ZHANG Feng-Shou. Effects of the entrance channel mass asymmetry in fusion reactions[J]. Chinese Physics C, 2010, 34(10): 1602-1608. doi: 10.1088/1674-1137/34/10/010

BIAN Bao-An and ZHANG Feng-Shou. Effects of the entrance channel mass asymmetry in fusion reactions[J]. Chinese Physics C, 2010, 34(10): 1602-1608. doi: 10.1088/1674-1137/34/10/010 shu

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Received: 2009-11-14
Revised: 2010-03-03

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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

Effects of the entrance channel mass asymmetry in fusion reactions

Corresponding author: ZHANG Feng-Shou,

Received Date: 2009-11-14

Accepted Date: 2010-03-03

Available Online: 2010-10-05

Abstract:

The symmetric and asymmetric fusion reaction systems forming the same compound nuclei ²⁶Al, ³⁰Si, ³⁸Ar and ¹⁷⁰Hf are investigated with the frame of improved isospin dependent quantum molecular dynamics model. The entrance channel mass asymmetry dependence of compound nucleus formation is found by analyzing the shell correction energies, the Coulomb barriers and the fusion cross sections. The calculated fusion cross sections agree quantitatively with the experimental data. The results indicate that compound nucleus formation is favorable for the systems with larger mass asymmetry because of the smaller Coulomb contribution to the fusion barrier.

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Effects of the entrance channel mass asymmetry in fusion reactions

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