Precision measurement of the ionization energy of Cs I

Abstract

We present absolute-frequency measurements for the transitions from the 6s1/2 ground state of 133Cs to np1/2 and np3/2 Rydberg states. The transition frequencies are determined by one-photon UV spectroscopy in ultracold samples of Cs atoms using a narrowband laser system referenced to a frequency comb. From a global fit of the ionization energy EI and the quantum defects of the two series we determine an improved value of EI = h c · 31 406.467 732 5(14) cm-1 for the ionization energy of Cs with a relative uncertainty of 5×10-11. We also report improved values for the quantum defects of the np1/2, np3/2, ns1/2, and nd5/2 series.