Akinobu Dote, Yoshiko Kanada-En'yo, Hisashi Horiuchi, Yoshinori Akaishi, Kiyomi Ikeda
Published 2005-07-29Version 1
In order to treat tensor force explicitly, we propose a microscopic model for nuclear structure based on antisymmetrized molecular dynamics (AMD). As a result of the present study, it is found that some extentions of the AMD method are effective to incorporate the tensor correlation into wave functions. Calculating the deuteron, triton and $^4$He with the extended version of AMD, we obtained solutions that have large contribution of the tensor force. By analyzing the wave funtion of $^4$He, it is found that its single-particle orbits are composed of normal-size $0s$ orbits and shrunk $p$ orbits so as to gain the tensor force.
Comments: 20 pages, 4 figures
Journal: Prog.Theor.Phys. 115 (2006) 1069-1092
Hoyle-analogue state in 13C studied with Antisymmetrized Molecular Dynamics
Delta degrees of freedom in antisymmetrized molecular dynamics and (p,p') reactions in the delta region
Proton inelastic scattering to continuum studied with antisymmetrized molecular dynamics
