A nonlinear quantum piston for the controlled generation of vortex rings

Natalia G. Berloff; Victor M. Perez-Garcia

arXiv:1006.4426·cond-mat.quant-gas·July 7, 2010

A nonlinear quantum piston for the controlled generation of vortex rings

Natalia G. Berloff, Victor M. Perez-Garcia

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TL;DR

This paper introduces a method to generate vortex rings in Bose-Einstein condensates using a quantum piston mechanism, enabling precise control over vortex formation.

Contribution

It presents a novel approach to manipulate interactions in Bose-Einstein condensates for controlled vortex ring generation.

Findings

01

Successful theoretical proposal for vortex ring creation

02

Potential for precise control of vortex dynamics

03

Foundation for experimental realization

Abstract

We propose a simple way to manage interactions in Bose-Einstein condensates to generate vortex rings in a highly controllable way. The vortex rings are generated under the action of a quantum analogue of a classical piston pushing the condensed atoms through a small aperture.

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Taxonomy

TopicsNeural Networks and Reservoir Computing · Mechanical and Optical Resonators · Orbital Angular Momentum in Optics