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Main Authors: Henk, Kai-Hendrik, Paul, Wolfgang
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.16459
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author Henk, Kai-Hendrik
Paul, Wolfgang
author_facet Henk, Kai-Hendrik
Paul, Wolfgang
contents Levitodynamics, i.e., the levitation of objects of mesoscopic size has made huge progress in the last decade, giving rise to new experimental opportunities for instance in materials science, but also allowing to address questions of fundamental physics for the first time. It has become possible to cool a levitated particle of mesoscopic size down to its motional ground state and to observe its motion driven by quantum fluctuations. Such an experiment is ideally suited for an analysis within the stochastic mechanics approach to quantum mechanics, which allows for a dynamic description of individual particle paths. We show that within our approach we reproduce the findings of a recent experiment [Magrini et al., Nature 595-373-377 (2021)]. The phase space dynamics reported there based on a quantum optimal control using Kalman filtering can be understood using the concept of coherent states.
format Preprint
id arxiv_https___arxiv_org_abs_2506_16459
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Levitodynamics: An analysis of quantum fluctuations based on stochastic mechanics
Henk, Kai-Hendrik
Paul, Wolfgang
Quantum Physics
Levitodynamics, i.e., the levitation of objects of mesoscopic size has made huge progress in the last decade, giving rise to new experimental opportunities for instance in materials science, but also allowing to address questions of fundamental physics for the first time. It has become possible to cool a levitated particle of mesoscopic size down to its motional ground state and to observe its motion driven by quantum fluctuations. Such an experiment is ideally suited for an analysis within the stochastic mechanics approach to quantum mechanics, which allows for a dynamic description of individual particle paths. We show that within our approach we reproduce the findings of a recent experiment [Magrini et al., Nature 595-373-377 (2021)]. The phase space dynamics reported there based on a quantum optimal control using Kalman filtering can be understood using the concept of coherent states.
title Levitodynamics: An analysis of quantum fluctuations based on stochastic mechanics
topic Quantum Physics
url https://arxiv.org/abs/2506.16459