Measurement of 7p1/2-state hyperfine structure and 7s1/2-7p1/2 transition isotope shift in 203Tl and 205Tl

Abstract

A two-step, two-color laser spectroscopy technique has been used to measure the hyperfine splitting of the 7p1/2 excited state in 203Tl and 205Tl, as well as the isotope shift within the 7s1/2 - 7p1/2 transition. Our measured values for the hyperfine splittings, 2153.2(7) MHz (in 203Tl) and 2173.3(8) MHz (in 205Tl), each differ by 20 MHz from previously published values which quoted comparable precision. The transition isotope shift of 203Tl relative to 205Tl was measured to be 534.4(9) MHz. In our experiment, one laser was locked to the thallium ground-state 6p1/2 - 7s1/2 378 nm transition, while the second, spatially overlapping laser was scanned across the 7s1/2(F=1) - 7p1/2(F=0,1) hyperfine transitions. To facilitate accurate frequency calibration, radio-frequency modulation of the laser was used to create sidebands in the absorption spectrum.