$^{16}$C inelastic scattering studied with microscopic coupled-channels method

Details $^{16}$C inelastic scattering studied with microscopic coupled-channels method $^{16}$C inelastic scattering studied with microscopic coupled-channels method

2005-01-06

arxiv.org/abs/nucl-th/0501015v2

Phys.Rev. C71 (2005) 054602

Physics

Nuclear Physics

Nuclear Theory

9 pages, 9 figures, submitted to Phys. Rev. C; revised

Scientific paper

10.1103/PhysRevC.71.054602

In order to test the $^{16}$C internal wave function, we perform microscopic coupled-channels (MCC) calculations of the $^{16}$C($0_1^+ \to 2_1^+$) inelastic scattering by $^{208}$Pb target at $E/A$=52.7 MeV using the antisymmetrized molecular dynamics (AMD) wave functions of $^{16}$C, and compare the calculated differential cross sections with the measured ones. The MCC calculations with AMD wave functions reproduce the experimental data fairly well, although they slightly underestimate the magnitude of the cross sections. The absolute magnitude of calculated differential cross sections is found to be sensitive to the neutron excitation strength. We prove that the MCC method is a useful tool to connect the inelastic scattering data with the internal wave functions.

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