Measurement of the radial matrix elements for the 6s 2S1/2 → 7p 2PJ transitions in cesium

Abstract

We report measurements of the electric dipole matrix elements of the 133Cs \ 6s\,2S1/2 → 7p\,2P1/2 and 6s\,2S1/2 → 7p\,2P3/2 transitions. Each of these determinations is based on direct, precise comparisons of the absorption coefficients between two absorption lines. For the 6s\,2S1/2||r|| 7p\,2P3/2 matrix element, we measure the ratio of the absorption coefficient on this line with that of the D1 transition, 6s\,2S1/2 → 6p\,2P1/2. The matrix element of the D1 line has been determined with high precision previously by many groups. For the 6s\,2S1/2||r|| 7p\,2P1/2 matrix element, we measure the ratio of the absorption coefficient on this line with that of the 6s\,2S1/2 → 7p\,2P3/2 transition. Our results for these matrix elements are 6s\,2S1/2||r|| 7p\,2P3/2 = 0.57417 \: (57)~a0 and 6s\,2S1/2||r|| 7p\,2P1/2 = 0.27810 \: (45)~a0. These measurements have implications for the interpretation of parity nonconservation in atoms.