Hyperfine, rotational and Zeeman structure of the lowest vibrational levels of the 87Rb2 state

Abstract

We present the results of an experimental and theoretical study of the electronically excited state of 87Rb2 molecules. The vibrational energies are measured for deeply bound states from the bottom up to v'=15 using laser spectroscopy of ultracold Rb2 Feshbach molecules. The spectrum of each vibrational state is dominated by a 47\,GHz splitting into a and component caused mainly by a strong second order spin-orbit interaction. Our spectroscopy fully resolves the rotational, hyperfine, and Zeeman structure of the spectrum. We are able to describe to first order this structure using a simplified effective Hamiltonian.