Observation of the nuclear magnetic octupole moment of 173Yb from precise measurements of hyperfine structure in the 3P2 state

Abstract

We measure hyperfine structure in the metastable 3P2 state of 173Yb and extract the nuclear magnetic octupole moment. We populate the state using dipole-allowed transitions through the 3P1 and 3S1 states. We measure frequencies of hyperfine transitions of the 3P2 → 3S1 line at 770 nm using a Rb-stabilized ring cavity resonator with a precision of 200 kHz. Second-order corrections due to perturbations from the nearby 3P1 and 1P1 states are below 30 kHz. We obtain the hyperfine coefficients as: A=-742.11(2) MHz, B=1339.2(2) MHz, which represent two orders-of-magnitude improvement in precision, and C=0.54(2) MHz. From atomic structure calculations, we obtain the nuclear moments: quadrupole Q=2.46(12) b and octupole =-34.4(21) b\,× μN.