S. Tölle scite author profile

S. Tölle

3Publications

61Citation Statements Received

451Citation Statements Given

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University of Bonn

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Universal few-body physics in a harmonic trap

Tölle

Hammer

Metsch

2011

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Few-body systems with resonant short-range interactions display universal properties that do not depend on the details of their structure or their interactions at short distances. In the three-body system, these properties include the existence of a geometric spectrum of three-body Efimov states and a discrete scaling symmetry. Similar universal properties appear in 4-body and possibly higher-body systems as well. We set up an effective theory for few-body systems in a harmonic trap and study the modification of universal physics for 3- and 4-particle systems in external confinement. In particular, we focus on systems where the Efimov effect can occur and investigate the dependence of the 4-body spectrum on the experimental tuning parameters.Comment: 20 pages, 10 figures, final version, new references adde

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Convergence properties of the effective theory for trapped bosons

Tölle¹,

Hammer²,

Metsch

2013

J. Phys. G: Nucl. Part. Phys.

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We investigate few-boson systems with resonant interactions in a narrow harmonic trap within an effective theory framework. The size of the model space is identified with the effective theory cutoff. In the universal regime, the interactions of the bosons can be approximated by contact interactions. We investigate the convergence properties of genuine and smeared contact interactions as the size of the model space is increased and present a detailed error analysis. The spectra for few-boson systems with up to 6 identical particles are calculated by combining extrapolations in the cutoff and in the smearing parameter.

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The Spectrum of Particles with Short-Ranged Interactions in a Harmonic Trap

Tölle¹,

Hammer²,

Metsch³

2010

EPJ Web of Conferences

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Abstract. The possibility to control short-ranged interactions of cold gases in optical traps by Feshbachresonances makes these systems ideal candidates to study universal scaling properties and Efimov physics. The spectrum of particles in a trap, idealised by a harmonic oscillator potential, in the zero range limit with 2-and 3-particle contact interactions is studied numerically. The Hamiltonian is regularised by restricting the oscillator basis and the coupling constants are tuned such that the ground state energies of the 2-and 3-particle sector are reproduced [1], [2]. Results for 2-, 3-, and 4 particle systems are presented and compared to exact results [3], [4].

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S. Tölle

Universal few-body physics in a harmonic trap

Convergence properties of the effective theory for trapped bosons

The Spectrum of Particles with Short-Ranged Interactions in a Harmonic Trap

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