Ultracold long-range van der Waals Rydberg trimer
Abstract
Rydberg molecules, Rydberg-atom or Rydberg-molecule, are an essential ingredient of cold molecular sciences. However, due to the richness of Rydberg-neutral interactions, new kinds of Rydberg molecules and binding mechanisms are still to be discovered. In this work, we predict the existence of ultra-long-range van der Waals trimers in dilute atom-gas mixtures. These are bound states of a Rydberg atom and a diatomic polar molecule mediated by the long-range van der Waals interaction. This new binding mechanism gives rise to trimers with sizes between 5-500~nm and binding energies between 2 MHz and 0.2 kHz depending on the atomic principal quantum number n and orbital angular momentum L. We show that these molecules can be produced via two-photon photoassociation, with rates on the order of (10-13 - 10-11) cm3s-1 for temperatures in the range of (0.5 μ K - 10μ K), and discuss the feasibility of observing trimer resonances.
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