Quantum-State-Sensitive Detection of Alkali Dimers on Helium Nanodroplets by Laser-Induced Coulomb Explosion

Abstract

Rubidium dimers residing on the surface of He nanodroplets are doubly ionized by an intense fs laser pulse leading to fragmentation into a pair of Rb+ ions. We show that the kinetic energy of the Rb+ fragment ions can be used to identify dimers formed in either the X 1g+ ground state or in the lowest-lying triplet state, a 3u+. From the experiment, we estimate the abundance ratio of dimers in the a and X states as a function of the mean droplet size and find values between 4:1 and 5:1. Our technique applies generally to dimers and trimers of alkali atoms, here also demonstrated for Li2, Na2, and K2, and will enable fs time-resolved measurements of their rotational and vibrational dynamics, possibly with atomic structural resolution.