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Inelastic collision dynamics of a single cold ion immersed in a Bose-Einstein condensate

T. Dieterle, Moritz Berngruber, Christian Hölzl, R. Löw, Krzysztof Jachymski, Tilman Pfau, Florian Meinert

2020Physical review. A/Physical review, A32 citationsDOIOpen Access PDF

Abstract

We investigate inelastic collision dynamics of a single cold ion in a Bose-Einstein condensate. We observe rapid ion-atom-atom three-body recombination leading to the formation of weakly bound molecular ions followed by secondary two-body molecule-atom collisions quenching the rovibrational states towards deeper binding energies. In contrast to previous studies exploiting hybrid ion traps, we work in an effectively field-free environment and generate a free low-energy ionic impurity directly from the atomic ensemble via Rydberg excitation and ionization. This allows us to implement an energy-resolved field-dissociation technique to trace the relaxation dynamics of the recombination products. Our observations are in good agreement with numerical simulations based on Langevin capture dynamics and provide a complementary means to study stability and reaction dynamics of ionic impurities in ultracold quantum gases.

Topics & Concepts

Atomic physicsInelastic collisionIonIonizationRydberg formulaMolecular dynamicsDissociation (chemistry)PhysicsIon trapRydberg atomIonic bondingBose–Einstein condensateExcitationElastic collisionUltracold atomRelaxation (psychology)Fragmentation (computing)Feshbach resonanceChemistryQuantumMoleculeCondensed matter physicsElectronPhysical chemistrySocial psychologyOperating systemPsychologyQuantum mechanicsComputer scienceCold Atom Physics and Bose-Einstein CondensatesSpectroscopy and Laser ApplicationsQuantum, superfluid, helium dynamics