Spectroscopy of the 2S1/2 →\,2P3/2 transition in Yb II: Isotope shifts, hyperfine splitting and branching ratios

Abstract

We report on spectroscopic results on the 2S1/2 →\,2P3/2 transition in single trapped Yb+ ions. We measure the isotope shifts for all stable Yb+ isotopes except 173Yb+, as well as the hyperfine splitting of the 2P3/2 state in 171Yb+. Our results are in agreement with previous measurements but are a factor of 5-9 more precise. For the hyperfine constant A(2P3/2) = 875.4(10) MHz our results also agree with previous measurements but deviate significantly from theoretical predictions. We present experimental results on the branching ratios for the decay of the 2P3/2 state. We find branching fractions for the decay to the 2D3/2 state and 2D5/2 state of 0.17(1)% and 1.08(5)%, respectively, in rough agreement with theoretical predictions. Furthermore, we measured the isotope shifts of the 2F7/2 →\,1D[5/2]5/2 transition and determine the hyperfine structure constant for the 1D[5/2]5/2 state in 171Yb+ to be A(1D[5/2]5/2) = -107(6) MHz.