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A coherent superposition of Feshbach dimers and Efimov trimers

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Date and time Feb 13, 2019
from 02:30 PM to 03:30 PM
Location 60 St. George Street, MP 408
Host Joseph Thywissen

Yaakov Yudkin

Bar-Ilan University

Abstract

 
In the domain of quantum few-body physics, peculiar loosely bound states,such as  Feshbach dimers and Efimov trimers, can form. Cold atom systemsoffer a superb experimental setting for exploring their physics due to the high degree of control of the inter-particle interactions, in particular of the scattering length. Standard experimental techniques for the study of Efimov physics have essentially been limited to the study of loss features due to inelastic collisions subject to variable initial conditions. Such an approach is best suited for the negative scattering length region, where the shallow trimer states dissociate into the free atom continuum. In contrast, for positive scattering lengths, the presence of Feshbach dimers shifts the dissociation of trimers into the atom-dimer continuum and Efimov resonances remain inaccessible for direct observations.

Here, using an ultra-cold gas of bosonic lithium, we develop a novel experimental approach which turns the presence of Feshbach dimers into an advantage. We use the dimers as a local reference for the Efimov trimers by creating a coherent superposition of both states. The measurement of its coherent evolution provides information on the binding energy of trimers with unprecedented precision. Even more importantly, it yields access to previously inaccessible parameters of the system such as the Efimov trimers' lifetime and the elastic processes between atoms and the constituents of the superposition state. Thus, our study opens a new perspective on Efimov physics in a domain where the main open questions
persist.
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