Measurement of the 6S → 7S Transition Polarizability in Atomic Cesium and an Improved Test of the Standard Model

Abstract

The ratio of the off-diagonal hyperfine amplitude to the tensor transition polarizability $({M}_{\mathrm{hf}}/\ensuremath{\beta})$ for the $6S\ensuremath{\rightarrow}7S$ transition in cesium has been measured. The value of $\ensuremath{\beta}\phantom{\rule{0ex}{0ex}}=\phantom{\rule{0ex}{0ex}}27.024(43{)}_{\mathrm{expt}}(67{)}_{\mathrm{theor}}{a}_{0}^{3}$ is then obtained using an accurate semiempirical value of ${M}_{\mathrm{hf}}$. This is combined with a previous measurement of parity nonconservation in atomic cesium and previous atomic structure calculations to determine the value of the weak charge. The uncertainties in the atomic structure calculations are updated (and reduced) in light of new experimental tests. The result ${Q}_{W}\phantom{\rule{0ex}{0ex}}=\phantom{\rule{0ex}{0ex}}\ensuremath{-}72.06(28{)}_{\mathrm{expt}}(34{)}_{\mathrm{theor}}$ differs from the prediction of the standard model of elementary particle physics by 2.5 $\ensuremath{\sigma}$.