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Exploring the vibrational series of pure trilobite Rydberg molecules

Max Althön, M. Exner, R. BLATTNER, Herwig Ott

2023Nature Communications11 citationsDOIOpen Access PDF

Abstract

In trilobite Rydberg molecules, an atom in the ground state is bound by electron-atom scattering to a Rydberg electron that is in a superposition of high angular momentum states. This results in a homonuclear molecule with a permanent electric dipole moment in the kilo-debye range. Trilobite molecules have previously been observed only with admixtures of low-l states. Here we report on the observation of two vibrational series of pure trilobite Rubidium-Rydberg molecules that are nearly equidistant. They are produced by three-photon photoassociation and lie energetically more than 15 GHz below the atomic 22F state of rubidium. We show that these states can be used to measure the electron-atom scattering length at low energies in order to benchmark current theoretical calculations. In addition to measuring their kilo-Debye dipole moments, we also show that the molecular lifetime is increased compared to the 22F state due to the high-l character. The observation of an equidistant series of vibrational states opens the way to observe coherent molecular wave packet dynamics.

Topics & Concepts

Rydberg formulaHomonuclear moleculeAtomic physicsDipolePhysicsAtom (system on chip)ChemistryMolecular physicsMoleculeQuantum mechanicsIonIonizationComputer scienceEmbedded systemCold Atom Physics and Bose-Einstein CondensatesQuantum, superfluid, helium dynamicsAdvanced Chemical Physics Studies
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