Hyperfine-structure-resolved laser spectroscopy of many-electron highly charged ions

Abstract

Hyperfine-structures of highly charged ions (HCIs) are favourable spectroscopic targets for exploring fundamental physics as well as nuclear properties. Recent proposals of HCI atomic clocks highlight their importance, especially for many-electron HCIs, and they have been theoretically investigated by refining atomic-structure calculations. Nonetheless, no established spectroscopic method is currently available to verify these theoretical calculations. Here, we demonstrate hyperfine-structure-resolved laser spectroscopy of HCIs in an electron beam ion trap plasma, employing the magnetic-dipole transition in 4d95s of 127I7+. Ion-state manipulation by controlled electron collisions in the well-defined laboratory plasma enables laser-induced fluorescence spectroscopy of trapped HCIs. The observed spectrum of evaporatively cooled ions under the low magnetic field shows remarkable features reflecting the hyperfine-structures. The present demonstration using the combined optical and plasma approach provides a new benchmark for state-of-the-art atomic calculations of hyperfine-structures in many-electron HCIs and offers possibilities for a variety of unexploited experiments.

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