Makoto Ito
Published 2005-08-17, updated 2006-03-02Version 4
The alpha+6He low-energy reactions and the structural changes of 10Be in the microscopic alpha+alpha+N+N model are studied by the generalized two-center cluster model with the Kohn-Hulthen-Kato variation method. It is found that, in the inelastic scattering to the alpha+6He(2+) channel, characteristic enhancements are expected as the results of the parity-dependent non-adiabatic dynamics. In the positive parity state, the enhancement originates from the excited eigenstate generated by the radial excitation of the relative motion between two alpha-cores. On the other hand, the enhancement in the negative parity state is induced by the Landau-Zener level-crossing. These non-adiabatic processes are discussed in connection to the formation of the inversion doublet in the compound system of 10Be.
Comments: 6 pages, 5 figures
Journal: Phys.Lett. B636 (2006) 293-298
Application of the generalized two-center cluster model to 10Be
Absence of hindrance in microscopic $^{12}$C+$^{12}$C fusion study
$πNN^*(1440)$ and $σNN^*(1440)$ coupling constants from a microscopic $NN \to NN^*(1440)$ potential
