TL;DR
This paper explores the emergence of geometric gauge forces in a single qubit system, demonstrating their conditions, effects, and applications in manipulating cold atoms through a magnetic lens for interferometry.
Contribution
It introduces wave-packet solutions in a qubit system exhibiting geometric gauge phenomena and shows how symmetry breaking enables these effects, with practical applications in cold atom manipulation.
Findings
Geometric gauge forces arise under specific conditions in qubit systems.
Symmetry breaking is crucial for non-trivial gauge phenomena.
A magnetic lens for neutral atoms can be constructed for interferometry.
Abstract
We introduce, and propagate wave-packet solutions of, a single qubit system in which geometric gauge forces and phases emerge. We investigate under what conditions non-trivial gauge phenomena arise, and demonstrate how symmetry breaking is an essential ingredient for realization of the former. We illustrate how a "magnetic"-lens, for neutral atoms, can be constructed and find application in the manipulation and interferometry of cold atoms.
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Taxonomy
TopicsCold Atom Physics and Bose-Einstein Condensates · Advanced Frequency and Time Standards · Experimental and Theoretical Physics Studies