Magic wavelengths of the Sr (5s2\;1\!S0--5s5p\;3\!P1) intercombination transition near the 5s5p\;3\!P1--5p2\;3\!P2 transition

Abstract

Predicting magic wavelengths accurately requires precise knowledge of electric-dipole matrix elements of nearby atomic transitions. As a result, measurements of magic wavelengths allow us to test theoretical predictions for the matrix elements that frequently can not be probed by any other methods. Here, we calculate and measure a magic wavelength near 473 nm of the 5s2\,1\!S0 - 5s5p\,3\!P1 intercombination transition of 88Sr. Experimentally, we find 473.361(4) nm for m=0 (π transition) and 473.133(14) nm for m=-1 (σ- transition). Theoretical calculations yield 473.375(22)~nm and 473.145(20) nm, respectively. The 3\!P1 polarizability is dominated by the contributions to the 5p2\, 3\!P levels and excellent agreement of theory and experiment validates both theoretical values of these matrix elements and estimates of their uncertainties.