Observation of an Efimov-like trimer resonance in ultracold atom-dimer scattering

• Published in: Nature physics Vol. 5; no. 3; pp. 227 - 230
• Main Authors: Schöbel, H, Knoop, S, Berninger, M, Ferlaino, F, Mark, M, Nägerl, H.-C, Grimm, R
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group UK 01.03.2009; Nature Publishing Group
• Subjects: Atomic; Atoms & subatomic particles; Classical and Continuum Physics; Complex Systems; Condensed Matter Physics; letter; Mathematical and Computational Physics; Molecular; Nuclear physics; Optical and Plasma Physics; Particle physics; Physics; Physics and Astronomy; Predictions; Resonance; Temperature; Theoretical
• ISSN: 1745-2473; 1745-2481
• DOI: 10.1038/nphys1203

The field of few-body physics has originally been motivated by understanding nuclear matter, but in the past few years ultracold gases with tunable interactions have emerged as model systems to experimentally explore few-body quantum systems. Even though the energy scales involved are vastly different for ultracold and nuclear matter (picoelectronvolt as compared with megaelectronvolt), few-body phenomena acquire universal properties for near-resonant two-body interactions. So-called Efimov states represent a paradigm for universal quantum states in the three-body sector. After decades of theoretical work, a first experimental signature of such a weakly bound trimer state was recently found under conditions where a weakly bound dimer state is absent. Here, we report on a trimer state in the opposite regime, where such a dimer state exists. The trimer state manifests itself in a resonant enhancement of inelastic collisions in a mixture of atoms and dimers. Our observation is closely related to an atom-dimer resonance as predicted by Efimov, but occurs in the theoretically challenging regime where the trimer spectrum reveals effects beyond the universal limit.