Measurement of hyperfine splittings and isotope shifts in the 8p excited states of 205Tl and 203Tl using two-step laser spectroscopy

Abstract

A two-step, two-color laser spectroscopy technique has been used to measure the hyperfine splittings of the 8p excited states in 203Tl and 205Tl, as well as the 7s - 8p transition isotope shifts. For the case of the 8p3/2 state, our results show a hyperfine anomaly consistent with our recent measurements of other hyperfine splittings, and in disagreement with older results for this state. Our measurement of the 8p1/2 isotope shift is also in disagreement with earlier work. In this series of experiments, a UV laser was locked to the first-step transition and directed through a heated vapor cell, while a second spatially overlapping red laser was scanned across the two second-step transitions. To facilitate accurate frequency calibration, radio-frequency modulation of the second-step laser was used to create sidebands in the Doppler-free absorption spectrum.