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Quantum Algorithms
Casimir-Polder shifts on quantum levitation states
arXiv
Authors: P. -P. Crépin, G. Dufour, R. Guérout, A. Lambrecht, S. Reynaud
Year
2016
Paper ID
41815
Status
Preprint
Abstract Read
~2 min
Abstract Words
141
Citations
N/A
Abstract
An ultracold atom above a horizontal mirror experiences quantum reflection from the attractive Casimir-Polder interaction, which holds it against gravity and leads to quantum levitation states. We analyze this system by using a Liouville transformation of the Schrödinger equation and a Langer coordinate adapted to problems with a classical turning point. Reflection on the Casimir-Polder attractive well is replaced by reflection on a repulsive wall and the problem is then viewed as an ultracold atom trapped inside a cavity with gravity and Casimir-Polder potentials acting respectively as top and bottom mirrors. We calculate numerically Casimir-Polder shifts of the energies of the cavity resonances and propose a new approximate treatment which is precise enough to discuss spectroscopy experiments aiming at tests of the weak equivalence principle on antihydrogen. We also discuss the lifetimes by calculating complex energies associated with cavity resonances.
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- It adds a 2016 reference point for readers tracking recent quantum research.
- An ultracold atom above a horizontal mirror experiences quantum reflection from the attractive Casimir-Polder interaction, which holds it against gravity and leads to quantum...
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