Multiple SO(5) isovector pairing and seniority Sp(2) multi-j algebras with isospin

Abstract

With nucleons occupying several shell model j orbits, the isovector pair creation operator A1μ (creates a two particle state with angular momentum J=0 and isospin T=1) is no longer unique. Choosing it to be a sum of single-j isovector pair creation operators each with a phase, there will be multiple pair SO(5) algebras with isospin; with r number of j orbits, there will be 2r-1 SO(5) algebras each with a corresponding complementary Sp(2) algebra [2 = Σj (2j+1)] that gives seniority and reduced isospin quantum numbers. Three applications of multiple SO(5) algebras are presented demonstrating the usefulness of considering SO(5) pairing algebras with general sign factors.