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Sensitivity to new physics of isotope-shift studies using the coronal lines of highly charged calcium ions

Nils-Holger Rehbehn, Michael Rosner, Hendrik Bekker, J. C. Berengut, Piet O. Schmidt, S. A. King, P. Micke, M. F. Gu, R. A. Müller, A. Surzhykov, J. R. Crespo López-Urrutia

2021Physical review. A/Physical review, A36 citationsDOIOpen Access PDF

Abstract

Promising searches for new physics beyond the current standard model (SM) of particle physics are feasible through isotope-shift spectroscopy, which is sensitive to a hypothetical fifth force between the neutrons of the nucleus and the electrons of the shell. Such an interaction would be mediated by a new particle which could in principle be associated with dark matter. In so-called King plots, the mass-scaled frequency shifts of two optical transitions are plotted against each other for a series of isotopes. Subtle deviations from the expected linearity could reveal such a fifth force. Here, we study experimentally and theoretically six transitions in highly charged ions of Ca, an element with five stable isotopes of zero nuclear spin. Some of the transitions are suitable for upcoming high-precision coherent laser spectroscopy and optical clocks. Our results provide a sufficient number of clock transitions for---in combination with those of singly charged ${\mathrm{Ca}}^{+}$---application of the generalized King plot method. This will allow future high-precision measurements to remove higher-order SM-related nonlinearities and open a door to yet more sensitive searches for unknown forces and particles.

Topics & Concepts

Sensitivity (control systems)Coronal planeIonIsotopePhysicsCalciumNuclear physicsAtomic physicsChemistryEngineeringQuantum mechanicsBiologyOrganic chemistryAnatomyElectronic engineeringAtomic and Subatomic Physics ResearchAtomic and Molecular PhysicsAdvanced Frequency and Time Standards
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