Part-per-billion measurement of the 42S1/2 → 32D5/2 electric quadrupole transition isotope shifts between 42,44,48Ca+ and 40Ca+

Abstract

We report a precise measurement of the isotope shifts in the 42S1/2 → 32D5/2 electric quadrupole transition at 729~nm in the 40 - 42,44,48Ca+. The measurement has been made via high-resolution laser spectroscopy of co-trapped ions, finding measured shifts of 2,771,872,467.6(7.6), 5,340,887,394.6(7.8), and 9,990,382,525.0(4.9) Hz between 42,44,48Ca+and 40Ca+, respectively. By exciting the two isotopes simultaneously using frequency sidebands derived from a single laser systematic uncertainties resulting from laser frequency drifts are eliminated. This permits far greater precision than similar previously published measurements in other alkaline-earth systems. The resulting measurement precision provides a benchmark for tests of theoretical isotope shift calculations, and also offers a step towards probing New Physics via isotope shift spectroscopy.