High-accuracy multi-ion spectroscopy with mixed-species Coulomb crystals

Abstract

Multi-ion optical clocks offer the possibility of overcoming the low signal-to-noise ratio of single-ion clocks, while still providing low systematic uncertainties. We present simultaneous spectroscopy of up to four 115In+ clock ions in a linear Coulomb crystal, sympathetically cooled with 172Yb+ ions. In first clock comparisons, we see agreement below 1×10-17 with results obtained using a single In+ ion, for which we have evaluated the systematic uncertainty to be 2.5×10-18. Operation with four clock ions reduces the instability from 1.6×10-15/t/(1\;s) to 9.2×10-16/t/(1\;s). We derive a model for decay-related dead time during state preparation, which matches the observed scaling of instability with clock ion number N, and indicates that 1/N scaling can be achieved with the addition of a repump laser.