Determination of nuclear quadrupole moments for 25Mg, 87Sr, and 135,137Ba via configuration-interaction combined with a coupled-cluster approach

Abstract

Using the configuration-interaction plus coupled-cluster approach, we calculate the electric-field gradients q for the low-lying states of alkaline-earth atoms, including magnesium (Mg), strontium (Sr), and barium (Ba). These low-lying states specifically include the 3s3p~3\!P1,2 states of Mg; the 5s4d~1\!D2 and 5s5p~3\!P1,2 states of Sr; as well as the 6s5d~3\!D1,2,3, 6s5d~1\!D2, and 6s6p~1\!P1 states of Ba. By combining the measured electric quadrupole hyperfine-structure constants of these states, we accurately determine the nuclear quadrupole moments of 25Mg, 87Sr, and 135,137Ba. These results are compared with the available data. The comparison shows that our nuclear quadrupole moment of 25Mg is in perfect agreement with the result from the mesonic X-ray experiment. However, there are approximately 10\% and 4\% differences between our results and the currently adopted values [Pyykk o, Mol. Phys. 116, 1328(2018)] for the nuclear quadrupole moments of 87Sr and 135,137Ba respectively. Moreover, we also calculate the magnetic dipole hyperfine-structure constants of these states, and the calculated results exhibit good agreement with the measured data.

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