Precision measurement of the ionization energy of a single trapped 40Ca+ ion by Rydberg series excitation

Abstract

A complete set of spectroscopic data is indispensable when using Rydberg states of trapped ions for quantum information processing. We carried out Rydberg series spectroscopy for nS1/2 states with 38 ≤ n ≤ 65 and for nD5/2 states with 37≤ n ≤ 50 on a single trapped 40Ca+ ion. From a nonlinear regression to resonance frequencies, we determined the ionization energy of 2 870 575.582(15) GHz, measured 60 times more accurately as compared to the accepted value and contradicting it by 7.5 standard deviations. We confirm quantum defect values of δS1/2=1.802995(5) and δD5/2=0.626888(9) for nS1/2 and nD5/2 states respectively, which allow for unambiguous addressing of Rydberg levels of Ca+ ions.