Cesium nDJ+6S1/2 Rydberg molecules and their permanent electric dipole moments

Abstract

Cs$_2$ Rydberg-ground molecules consisting of a Rydberg, $nD_{J}$ (33 $\leq$ $n$ $\leq$ 39), and a ground state atom, 6$S_{1/2} (F=$3 or 4$)$, are investigated by photo-association spectroscopy in a cold atomic gas. We observe vibrational molecular spectra that correspond to triplet $^T\Sigma$ and mixed $^{S,T}\Sigma$ molecular states. We establish scaling laws for the ground-state molecular binding energies as a function of effective principal quantum number, and obtain zero-energy singlet and triplet $s$-wave scattering lengths from experimental data and a Fermi model. The permanent electric dipole moments of the molecules are attained by analyzing line broadening in external electric fields. We find qualitative agreement between measured and calculated magnitudes of the dipole moment. The sign of the dipole moment is predicted to be negative, which differs from previously reported cases.