Highly charged Nd9+ Ion: A potential candidate of linewidth optical clocks for probing fundamental physics

Abstract

An active optical clock based on highly charged Nd9+ ion is proposed for the first time. The clock can offer ultra-narrow linewidth at the -level which is more than two-order of magnitude below the currently recorded laser linewidth. Operating at 605(90) nm superradiation lasing transition between the 5p2~4f ground state and one of the long-lived 5p~4f2 excited state, the proposed active clock is inherently immune against the cavity noise which provides high stability. The clock serves as a sensitive probe with high sensitivity to variation of the fine-structure constant with accuracies below 10-19 level. Sophisticated relativistic many-body methods are employed to predict related atomic properties that have corroborated the above findings.