Isoscalar, isovector and orbital contributions in M1 transitions from analogous M1 and Gamow-Teller transitions in T=12 mirror nuclei

Abstract

The isoscalar and isovector components and their contributions to M1 transitions are discussed in the odd-A, T=1/2 mirror nuclei with mass number ranging from A=23 to 37. The orbital contributions in various M1 transitions and ground state magnetic moments are calculated by comparing analogous M1 and Gamow-Teller transitions between mirror pairs. The orbital contributions in different M1 transitions are explained on the basis of configurations of the initial and final states involved. In magnetic moments, the orbital contributions are found to be dependent on the deformation and single-particle nature of the states. All the T=1/2 mirror pairs are studied using isospin non-conserving interaction. The results are also compared with predictions from ab initio effective interaction derived from realistic nuclear forces.

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