中文

Topics Concerning the Quadrupole-Quadrupole Interaction

核理论 2007-05-23 v1

摘要

We address some properties of the quadrupole-quadrupole (QQQ \cdot Q) interaction in nuclear studies. We first consider how to restore SU(3)SU(3) symmetry even though we use only coordinate and not momentum terms. Using the Hamiltonian H=i(p2/2m+m/2ω2ri2)χi<jQ(i)Q(j)χ/2iQ(i)Q(i)H=\sum_i (p^2/2m + m/2 \omega^2 r_i^2) -\chi \sum_{i < j}Q(i) \cdot Q(j) - \chi/2 \sum_i Q(i) \cdot Q(i) with Qμ=r2Y2,μQ_{\mu}=r^2 Y_{2,\mu}, we find that only 2/3 of the single-particle splitting (ϵ0dϵ1s\epsilon_{0d}-\epsilon_{1s}) comes from the diagonal term of QQQ \cdot Q -the remaining 1/3 comes from the interaction of the valence nucleus with the core. On another topic, a previously derived relation, using QQQ \cdot Q, between isovector orbital B(M1)B(M1) (scissors mode) and the ``difference'' (B(E2,isoscalar)B(E2,isovector)B(E2, isoscalar)-B(E2, isovector)) is discussed. It is shown that one needs the isovector B(E2)B(E2) in order that one get the correct limit as one goes to nuclei sufficiently far from stability so that one subshell (neutron or proton) is closed.

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引用

@article{arxiv.nucl-th/9609057,
  title  = {Topics Concerning the Quadrupole-Quadrupole Interaction},
  author = {M. S. Fayache and Y. Y. Sharon and L. Zamick},
  journal= {arXiv preprint arXiv:nucl-th/9609057},
  year   = {2007}
}

备注

8 pages, revtex, no figures