Investigation of coupled nuclear and electronic motion in H2 photoionization

We investigate coupled nuclear and electronic dynamics in the photoionization time delays of H$_2$. We use a RABBITT technique to measure the photoionization time delays for several vibrational states of H$_2^+$ across a wide range of photoelectron kinetic energies. We observe discrepancies between our measured photoionization delays and a theoretical model which incorporates the vibrational state dependent ionization potential, but neglects motion of the nuclei. This difference between measurement and theory might indicate time variation of the scattering potential caused by nuclear dynamics. We explore the relative importance of these dynamics near the ionization threshold.