English

Equally Spaced Levels with T=1 two-body Matrix elements

Nuclear Theory 2017-03-03 v9

Abstract

If one examines two-body matrix elements from experiment one notices that not only J=0 T=1 lies low but also J=1T=0 and J=J_{max} =2j T=0. It is sometimes thought that one needs both T=1 and T=0 two-body matrix elements to get equally spaced spectra of even I states i.e. vibraitonal spectra. We here attempt to get equally spaced levels with only those that have T=1 (even J).As an example we perform single-j calculations (f_{7/2}) in ^{44} T and ^{46} Ti. We then shift gears and decide to play around with the input two particle matrix, elements (not worrying about experiment) to generate interesting spectra e.g. rotaional spectra with and then without T=0 two-body matrix element. Of special interest is a new partial dynamical symmetry found when the "123", the "1234" etc.,interactions are used.

Cite

@article{arxiv.1506.07209,
  title  = {Equally Spaced Levels with T=1 two-body Matrix elements},
  author = {Wesley Pereira and Ricardo Garcia and Larry Zamick and Alberto Escuderos},
  journal= {arXiv preprint arXiv:1506.07209},
  year   = {2017}
}
R2 v1 2026-06-22T09:59:03.077Z