Excluding Hypothetical Light Boson Interpretation of Yb King Plot Nonlinearity with the 1S0 3P2 Isotope Shift Measurement

Abstract

We present precision spectroscopy and isotope shift measurement of the 1S0 3P2 clock transition in neutral ytterbium (Yb) atoms. By revealing a magic wavelength at 905.4(2) nm, we successfully achieve the atomic spectrum narrower than 100 Hz. The interleaved clock operation between isotopes allows us to determine isotope shifts of four bosonic isotope pairs at Hz-level uncertainties, which is combined with those of other four ultra-narrow transitions in Yb and Yb+ to construct the King plot. Importantly, the new isotope shift data reported in this work is a key to exclude the possibility of attributing the observed nonlinearity of the three-dimensional King plot solely to the new physics, while the previous works rely on the other terrestrial bound set by the neutron scattering and (g-2)e measurements. This work paves the way for the effective use of precision isotope shift data in the King plot analysis and stimulates further measurements in Yb and other elements.