Chinese Physics C > 2001, Vol. 25 > Issue(6): 506-513

Extended Glauber Theory and Its Application in Halo Nucleus Scattering

Department of Physics, China Institute of Atomic Energy, Beijing 102413, China2 Department of Physics, Northwest University, Xi′an 710069, China3 Center of Theoretical Nuclear Physics, National Laboratory of Heavy Ion Accelerator of Laboratory, Lanzhou 730000, China4 Institute of Theoretical Physics, The Chinese Academy of Sciences, Beijing 100080, China

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Abstract：
We introduced an extended Glauber theory for a halo nucleus scattering, where the halo nucleons and the nuclear core were treated separately. Expressions of reaction and interaction cross sections of the halo nucleus scattering were derived. We took the halo structure of the projectile nucleus into account and adopted an improved optical limit approximation. In the framework of the extended Glauber theory, we studied the reaction cross section for the halo nucleus ¹⁴Be scattering on a target ¹²C. For comparison, the reaction cross sections of ¹²Be+ ¹²C were calculated as well. The density distribution of target ¹²C is taken from experiments, and those of the projectiles ¹²Be and ¹⁴Be were obtained by two methods. One is that the harmonic oscillator wave functions for ¹²Be and ¹⁴Be are used. The length of harmonic oscillator is adjusted to reproduce the reaction cross section of ¹²Be+ ¹²C at the high energy E=790MeV/u . The density distribution of ¹⁴Be was also calculated self-consistently in the relativistic mean field (RMF) theory, with a long tail wave functions for the two neutrons in ¹⁴Be. It was found that the calculated reaction cross sections for ¹²Be+ ¹²C at E=790MeV/u and E=56.5MeV/u were in good agreement with the experimental data no matter harmonic oscillator or RMF wave functions were used. In contrast, the experiments of the reaction cross sections for ¹⁴Be+ ¹²C could only be reproduced when the wave functions of two 2s _1/2neutrons spreaded over with a long tail. It comes to a conclusion that two outside neutrons in ¹⁴Be form a halo structure.

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ZHAO Yao-Lin, MA Zhong-Yu, CHEN Bao-Qiu and SUN Xiu-Quan. Extended Glauber Theory and Its Application in Halo Nucleus Scattering[J]. Chinese Physics C, 2001, 25(6): 506-513.

ZHAO Yao-Lin, MA Zhong-Yu, CHEN Bao-Qiu and SUN Xiu-Quan. Extended Glauber Theory and Its Application in Halo Nucleus Scattering[J]. Chinese Physics C, 2001, 25(6): 506-513. shu

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Received: 2000-05-30
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

Extended Glauber Theory and Its Application in Halo Nucleus Scattering

Corresponding author:ZHAO Yao-Lin,

Department of Physics, China Institute of Atomic Energy, Beijing 102413, China2 Department of Physics, Northwest University, Xi′an 710069, China3 Center of Theoretical Nuclear Physics, National Laboratory of Heavy Ion Accelerator of Laboratory, Lanzhou 730000, China4 Institute of Theoretical Physics, The Chinese Academy of Sciences, Beijing 100080, China

Received Date:2000-05-30

Accepted Date:1900-01-01

Available Online:2001-06-05

Abstract:We introduced an extended Glauber theory for a halo nucleus scattering, where the halo nucleons and the nuclear core were treated separately. Expressions of reaction and interaction cross sections of the halo nucleus scattering were derived. We took the halo structure of the projectile nucleus into account and adopted an improved optical limit approximation. In the framework of the extended Glauber theory, we studied the reaction cross section for the halo nucleus¹⁴Be scattering on a target¹²C. For comparison, the reaction cross sections of¹²Be+¹²C were calculated as well. The density distribution of target¹²C is taken from experiments, and those of the projectiles¹²Be and¹⁴Be were obtained by two methods. One is that the harmonic oscillator wave functions for¹²Be and¹⁴Be are used. The length of harmonic oscillator is adjusted to reproduce the reaction cross section of¹²Be+¹²C at the high energy E=790MeV/u . The density distribution of¹⁴Be was also calculated self-consistently in the relativistic mean field (RMF) theory, with a long tail wave functions for the two neutrons in¹⁴Be. It was found that the calculated reaction cross sections for¹²Be+¹²C at E=790MeV/u and E=56.5MeV/u were in good agreement with the experimental data no matter harmonic oscillator or RMF wave functions were used. In contrast, the experiments of the reaction cross sections for¹⁴Be+¹²C could only be reproduced when the wave functions of two 2s_1/2neutrons spreaded over with a long tail. It comes to a conclusion that two outside neutrons in¹⁴Be form a halo structure.

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