Role of Tensor Interaction as Salvation of Cluster Structure in 44Ti

Abstract

Background: The 44Ti nucleus has been known to have a 40Ca+α cluster structure, and inversion doublet structure has been observed; however, α cluster structure tends to be washed out when the breaking of the α cluster is allowed due to the spin-orbit interaction. Nevertheless, α clustering in medium-heavy nuclei is quite a hot subject recently. Purpose: The tensor interaction has been known to play an essential role in the strong binding of the 4He nucleus, which induces the two-particle-two-hole (2p2h) excitation. Since this excitation is blocked when another nucleus approaches, it is worthwhile to show whether the tensor effect works to keep the distance between 4He and 40Ca and becomes the salvation of the clustering in 44Ti. Methods: The spin-orbit effect is included in the cluster model by using the antisymmetrized quasi cluster model (AQCM) developed by the authors. We have also developed an improved version of the simplified method to include the tensor contribution (iSMT), which allows us to estimate the tensor effect within the cluster model. The competition of these two is investigated in the medium-heavy mass region for the first time. Results: According to AQCM, the spin-orbit interaction completely breaks the α cluster and restores the symmetry of jj-coupling shell model when the α cluster approaches the 40Ca core. On the other hand, iSMT gives a large distance between α and 40Ca due to the tensor effect. Conclusions: In 44Ti, because of the strong spin-orbit and tensor contributions, two completely different configurations (jj-coupling shell model and cluster states) almost degenerate, and their mixing becomes important.