Precision calculation of hyperfine-structure constants for extracting nuclear quadrupole moment of 43Ca

Abstract

There have been several reported values for the nuclear quadrupole moment of 43Ca, but significant discrepancies exist among these reported values, ranging from \(-0.0408(8)\)~b to \(-0.065(20)\)~b. In this work, we performed an accurate calculation of the electric field gradients of the \(4s4p~3\!P1\), \(4s4p~3\!P2\) and \(4s3d~1\!D2\) states in the 43Ca atom using a hybrid method. This hybrid method integrates the advantages of the configuration interaction method and the coupled-cluster method, and can simultaneously account for core-core, core-valence, and valence-valence correlations. By combining our calculated results with the experimental values of the electric quadrupole hyperfine-structure constants of these three states, an accurate and reliable nuclear quadrupole moment of 43Ca was determined to be \(-0.0479(6)\)~b, which could be recommended as a reference for \(43Ca\).