Efimov effect in a D-dimensional Born-Oppenheimer approach
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2019-01-28
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We study a three-body system, formed by two identical heavy bosons and a light particle, in the Born-Oppenheimer approximation for an arbitrary dimension D. We restrict D to the interval 2 < D < 4, and derive the heavy-heavy D-dimensional effective potential proportional to 1/R 2 (R is the relative distance between the heavy particles), which is responsible for the Efimov effect. We found that the Efimov states disappear once the critical strength of the heavy-heavy effective potential 1/R 2 approaches the limit . We obtained the scaling function for the 133 Cs- 133 Cs- 6 Li system as the limit cycle of the correlation between the energies of two consecutive Efimov states as a function of D and the heavy-light binding energy E D 2 . In addition, we found that the energy of the (N + 1)th excited state reaches the two-body continuum independently of the dimension D when √E 2 D / E 2 (N) , where is the Nth excited three-body binding energy.
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cold atoms, Efimov effect, low-dimensional systems, three-body problem
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Journal of Physics B: Atomic, Molecular and Optical Physics, v. 52, n. 2, 2019.