Clusters, Halos, And S-Factors In Fermionic Molecular Dynamics ^*

GSI Helmholtzzentrum für Schwerionenforschung GmbH, Darmstadt

Published online: 19 December 2013

Abstract

In Fermionic Molecular Dynamics antisymmetrized products of Gaussian wave packets are projected on angular momentum, linear momentum, and parity. An appropriately chosen set of these states span the many-body Hilbert space in which the Hamiltonian is diagonalized. The wave packet parameters – position, momentum, width and spin – are obtained by variation under constraints. The great flexibility of this basis allows to describe not only shell-model like states but also exotic states like halos, e.g. the two-proton halo in ¹⁷Ne, or cluster states as they appear for example in ¹²C close to the α breakup threshold where the Hoyle state is located. Even a fully microscopic calculation of the ³He(α,γ)⁷Be capture reaction is possible and yields an astrophysical S-factor that compares very well with newer data. As representatives of numerous results these cases will be discussed in this contribution, some of them not published so far. The Hamiltonian is based on the realistic Argonne V18 nucleon-nucleon interaction.