Quadrupole Moments of Neutron-Deficient 20, 21Na

Abstract

The electric-quadrupole coupling constant of the ground states of the proton drip line nucleus 20Na(Iπ = 2+, T1/2 = 447.9 ms) and the neutron-deficient nucleus 21Na(Iπ = 3/2+, T1/2 = 22.49 s) in a hexagonal ZnO single crystal were precisely measured to be |eqQ/h| = 690 12 kHz and 939 14 kHz, respectively, using the multi-frequency β-ray detecting nuclear magnetic resonance technique under presence of an electric-quadrupole interaction. A electric-quadrupole coupling constant of 27Na in the ZnO crystal was also measured to be |eqQ/h| = 48.4 3.8 kHz. The electric-quadrupole moments were extracted as |Q(20Na)| = 10.3 0.8 e fm2 and |Q(21Na)| = 14.0 1.1 e fm2, using the electric-coupling constant of 27Na and the known quadrupole moment of this nucleus as references. The present results are well explained by shell-model calculations in the full sd-shell model space.