AC polarizability and photoionization cross-section measurements in an optical lattice

Abstract

We use double-resonant two-photon laser spectroscopy to measure the dynamic scalar polarizability of the rubidium 5D3/2 level, αS5D3/2, at a wavelength of λ=1064~nm. Since λ is shorter than the photoionization (PI) limit of the Rb 5D3/2 level, αS5D3/2 depends on both bound-bound and bound-free transition matrix elements. The level also undergoes significant broadening due to PI. The 1064-nm field is applied in the form of a deep optical lattice (105~photon recoils) generated by an in-vacuum field-enhancement cavity. In our spectroscopic method, we use known dynamic polarizabilities to eliminate the need to measure the light intensity. Our method yields, in atomic units, αS5D3/2=-524(17), in agreement with estimates. Additionally, we extract the 5D3/2 photoionization cross section σ at 1064~nm from spectral linewidths; we find σ=44(1)~Mb.