English

Pairing Matrix Elements and Pairing Gaps with Bare, Effective and Induced Interactions

Nuclear Theory 2009-11-11 v1

Abstract

The dependence on the single-particle states of the pairing matrix elements of the Gogny force and of the bare low-momentum nucleon-nucleon potential vlowkv_{low-k} is studied in the semiclassical approximation for the case of a typical finite, superfluid nucleus (120^{120}Sn). It is found that the matrix elements of vlowkv_{low-k} follow closely those of vGognyv_{Gogny} on a wide range of energy values around the Fermi energy eFe_F, those associated with vlowkv_{low-k} being less attractive. This result explains the fact that around eFe_F the pairing gap ΔGogny\Delta_{Gogny} associated with the Gogny interaction (and with a density of single-particle levels corresponding to an effective kk-mass mk0.7mm_k\approx 0.7 m) is a factor of about 2 larger than Δlowk\Delta_{low-k},being in agreement with Δexp\Delta_{exp}= 1.4 MeV. The exchange of low-lying collective surface vibrations among pairs of nucleons moving in time-reversal states gives rise to an induced pairing interaction vindv_{ind} peaked at eFe_F. The interaction (vlowk+vind)Zω(v_{low-k}+ v_{ind})Z_{\omega} arising from the renormalization of the bare nucleon-nucleon potential and of the single-particle motion (ω\omega-mass and quasiparticle strength ZωZ_{\omega}) due to the particle-vibration coupling leads to a value of the pairing gap at the Fermi energy Δren\Delta_{ren} which accounts for the experimental value.

Keywords

Cite

@article{arxiv.nucl-th/0502076,
  title  = {Pairing Matrix Elements and Pairing Gaps with Bare, Effective and Induced Interactions},
  author = {F. Barranco and P. F. Bortignon and R. A. Broglia and G. Colo' and P. Schuck and E. Vigezzi and X. Vinas},
  journal= {arXiv preprint arXiv:nucl-th/0502076},
  year   = {2009}
}