Bulletin of the American Physical Society
APS April Meeting 2011
Volume 56, Number 4
Saturday–Tuesday, April 30–May 3 2011; Anaheim, California
Session Q6: Spectroscopy and Interactions in Four & More-Body Systems: Efimov Spectrum |
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Sponsoring Units: GFB Chair: Seth Rittenhouse, Harvard-Smithsonian Center for Astrophysics Room: Terrace A-F |
Monday, May 2, 2011 10:45AM - 11:21AM |
Q6.00001: Universality in Three and Four-Body Efimov States Invited Speaker: Ultracold atomic gases are clean, well-characterized systems, whose versatility for elucidating fundamental behavior extends from condensed matter to nuclear physics. In the past several years, ultracold atomic Bose gases with tunable interactions have established a remarkable prediction in few-body physics made by V. Efimov nearly 30 years. Efimov contended that in a resonantly interacting system, three-body bound states could be formed even in regions where two-body bound states cannot form. Furthermore, he showed that these three-body trimers occur in a repeating sequence where the binding energy of the next trimer in the sequence would be (22.7)$^{2}$ smaller than the previous one. This prediction was universal, in the sense that the three bodies could be nucleons, quarks, atoms, or molecules, as long as their interactions were strong. We have used a Feshbach resonance in $^{7}$Li, a composite boson, to verify the universal prediction of Efimov [1]. The large width of the $^{7}$Li Feshbach resonance facilitates precise tuning of the $s$-wave scattering length $a$. We previously showed that $a$ could be tuned over a range of at least seven decades, from 0.01 $a_{o}$ to 10$^{5} a_{o}$, where $a_{o}$ is the Bohr radius [2]. The presence of 3-body bound states is manifested in the rate of inelastic collisions that lead to loss of atoms from a Bose-Einstein condensate. We find features in the rate of three-body inelastic loss that we ascribe to Efimov trimers. In addition, we find features in the four-body decay rate that are due to the presence of four-body Efimov states. A total of 11 features on both sides of the Feshbach resonance are observed. The features on either side of the Feshbach resonance agree well with current theories, but there is disagreement on the relative location of features \textit{across} the resonance. This discrepancy may be due to beyond mean-field effects influening the measured location of the Feshbach resonance. \\[4pt] [1] S. E. Pollack, D. Dries, and R. G. Hulet, \textit{Science} \textbf{326}, 1685 (2009). \\[0pt] [2] S.E. Pollack \textit{et al}, Phys. Rev. Lett. \textbf{102}, 090402 (2009). [Preview Abstract] |
Monday, May 2, 2011 11:21AM - 11:57AM |
Q6.00002: Universal Few-body Physics in Strongly Correlated Quantum Gases Invited Speaker: In this talk, I will discuss universal properties of few-body collisions and their influence on ultracold quantum gases in the regime where interatomic interactions are strongly affected by a Feshbach resonance. Such universal properties are related to what is known today as Efimov physics. Predicted about 40 years ago, the Efimov effect is one of the most counterintuitive quantum phenomena that manifest in a ``simple'' few- particle system and is of crucial importance in determining the stability of condensates. Despite of many failed attempts to disprove the Efimov effect, today several experiments in ultracold quantum gases have found evidence of such phenomena and have established a new research venue. I will discuss our new finds on the extension of such phenomena for more particles and the prospects of using it for controlling ultracold chemical reactions. [Preview Abstract] |
Monday, May 2, 2011 11:57AM - 12:33PM |
Q6.00003: Effective field theory of few-body systems Invited Speaker: |
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