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Excited Thomas-Efimov levels in ultracold gases

Journal Article · · Physical Review. A
; ;  [1]
  1. Clarendon Laboratory, Department of Physics, University of Oxford, Parks Road, Oxford, OX1 3PU (United Kingdom)
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Since the early days of quantum physics, the complex behavior of three interacting particles has been the subject of numerous experimental and theoretical studies. In a recent Letter to Nature, Kraemer et al. [Nature (London) 440, 315 (2006)] report on experimental 'evidence for Efimov quantum states' in an ultracold gas of cesium atoms. Such quantum states refer to an infinite series of energy levels of three identical Bose particles, accumulating at the threshold for dissociation as the scattering length of each pair is tuned to infinity. Whereas the existence of a single Efimov state has been predicted for three helium atoms, earlier experimental studies concluded that this elusive state had not been found. In this paper we show by an intuitive argument and full numerical calculations that the helium and cesium experiments actually provide evidence of the same, ground state of this trimer spectrum, which the helium experimentalists and pioneering theoretical studies had not associated with Efimov's effect. Unlike the helium trimer, the observed {sup 133}Cs{sub 3} resonance refers to a Borromean molecular state. We discuss how as yet unobserved, excited Efimov quantum states might be detected in ultracold gases of {sup 85}Rb and of {sup 133}Cs at magnetic field strengths in the vicinity of 0.08 T (800 G)
OSTI ID:
21011237
Journal Information:
Physical Review. A, Journal Name: Physical Review. A Journal Issue: 1 Vol. 76; ISSN 1050-2947; ISSN PLRAAN
Country of Publication:
United States
Language:
English

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Related Subjects

74 ATOMIC AND MOLECULAR PHYSICS
ATOMS
BOSONS
CESIUM
CESIUM 133
DISSOCIATION
EFIMOV EFFECT
GASES
GROUND STATES
HELIUM
MAGNETIC FIELDS
MANY-BODY PROBLEM
QUANTUM MECHANICS
RESONANCE
RUBIDIUM 85
SCATTERING LENGTHS
SPECTRA
TEMPERATURE RANGE 0000-0013 K