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Feynman path-integral treatment of the BEC-impurity polaron

Journal Article · · Physical Review. B, Condensed Matter and Materials Physics
 [1]; ;  [1]; ;  [2];  [3]
  1. TFVS, Universiteit Antwerpen, Groenenborgerlaan 171, B2020 Antwerpen (Belgium)
  2. Kirchhoff-Institut fuer Physik, Universitaet Heidelberg, Im Neuenheimer Feld 227, D-69120 Heidelberg (Germany)
  3. Theoretical Division (T-4), Los Alamos National Laboratory, Los Alamos, New Mexico 87545 (United States)
+ Show Author Affiliations
The description of an impurity atom in a Bose-Einstein condensate can be cast in the form of Froehlich's polaron Hamiltonian, where the Bogoliubov excitations play the role of the phonons. An expression for the corresponding polaronic coupling strength is derived, relating the coupling strength to the scattering lengths, the trap size and the number of Bose condensed atoms. This allows to identify several approaches to reach the strong-coupling limit for the quantum gas polarons, whereas this limit was hitherto experimentally inaccessible in solids. We apply Feynman's path-integral method to calculate for all coupling strengths the polaronic shift in the free energy and the increase in the effective mass. The effect of temperature on these quantities is included in the description. We find similarities to the acoustic polaron results and indications of a transition between free polarons and self-trapped polarons. The prospects, based on the current theory, of investigating the polaron physics with ultracold gases are discussed for lithium atoms in a sodium condensate.
OSTI ID:
21294479
Journal Information:
Physical Review. B, Condensed Matter and Materials Physics, Journal Name: Physical Review. B, Condensed Matter and Materials Physics Journal Issue: 18 Vol. 80; ISSN 1098-0121
Country of Publication:
United States
Language:
English

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Related Subjects

74 ATOMIC AND MOLECULAR PHYSICS
ATOMS
BOGOLYUBOV METHOD
BOSE-EINSTEIN CONDENSATION
COUPLING
EFFECTIVE MASS
EXCITATION
FEYNMAN PATH INTEGRAL
FREE ENERGY
GASES
HAMILTONIANS
IMPURITIES
LITHIUM
PHONONS
POLARONS
SCATTERING LENGTHS
SODIUM
SOLIDS
STRONG-COUPLING MODEL
TRAPPING
TRAPS