English

An Optical Atomic Clock Based on a Highly Charged Ion

Atomic Physics 2023-09-07 v2 Instrumentation and Detectors Optics Plasma Physics

Abstract

Optical atomic clocks are the most accurate measurement devices ever constructed and have found many applications in fundamental science and technology. The use of highly charged ions (HCI) as a new class of references for highest accuracy clocks and precision tests of fundamental physics has long been motivated by their extreme atomic properties and reduced sensitivity to perturbations from external electric and magnetic fields compared to singly charged ions or neutral atoms. Here we present the first realisation of this new class of clocks, based on an optical magnetic-dipole transition in Ar13+^{13+}. Its comprehensively evaluated systematic frequency uncertainty of 2.2×10172.2\times10^{-17} is comparable to that of many optical clocks in operation. From clock comparisons we improve by eight and nine orders of magnitude upon the uncertainties for the absolute transition frequency and isotope shift (40^{40}Ar vs. 36^{36}Ar), respectively. These measurements allow us to probe the largely unexplored quantum electrodynamic nuclear recoil, presented as part of improved calculations of the isotope shift which reduce the uncertainty of previous theory by a factor of three. This work establishes forbidden optical transitions in HCI as references for cutting-edge optical clocks and future high-sensitivity searches for physics beyond the standard model.

Keywords

Cite

@article{arxiv.2205.13053,
  title  = {An Optical Atomic Clock Based on a Highly Charged Ion},
  author = {Steven A. King and Lukas J. Spieß and Peter Micke and Alexander Wilzewski and Tobias Leopold and Erik Benkler and Richard Lange and Nils Huntemann and Andrey Surzhykov and Vladimir A. Yerokhin and José R. Crespo López-Urrutia and Piet O. Schmidt},
  journal= {arXiv preprint arXiv:2205.13053},
  year   = {2023}
}

Comments

Main: 21 pages, 3 figures. Supplement: 20 pages, 2 figures. Accepted version

R2 v1 2026-06-24T11:28:58.411Z