Probing spin-motion coupling of two Rydberg atoms by a Stern-Gerlach-like experiment

Gabriel Emperauger; Mu Qiao; Guillaume Bornet; Yuki Torii Chew; Romain Martin; Bastien Gély; Lukas Klein; Daniel Barredo; Thierry Lahaye; Antoine Browaeys

doi:10.1103/jd4l-qy2j

Probing spin-motion coupling of two Rydberg atoms by a Stern-Gerlach-like experiment

Gabriel Emperauger
, Mu Qiao
, Guillaume Bornet
, Yuki Torii Chew
, Romain Martin
, Bastien Gély
, Lukas Klein
, Daniel Barredo
, Thierry Lahaye
, Antoine Browaeys

Laboratoire Charles Fabry
Princeton University
Institute for Molecular Science
University of Oviedo

Résultats de recherche: Contribution à un journal › Éditorial

Résumé

We propose and implement a protocol to measure the state-dependent motion of Rydberg atoms induced by dipole-dipole interactions. Our setup enables simultaneous readout of both the atomic internal state and position on a one-dimensional array of optical tweezers.We benchmark the protocol using two atoms in the same Rydberg state, which experience van der Waals repulsion, and measure velocities in agreement with theoretical predictions. When preparing the atoms in a different pair state, we observe an oscillatory dynamics that we attribute to the proximity of a macrodimer bound state. Finally, we perform a Stern-Gerlach-like experiment in which a superposition of the two previous pair states results in the separation of the atomic wave packet into two macroscopically distinct trajectories, thereby demonstrating spin-motion coupling mediated by the interactions.

langue originale	Anglais
Numéro d'article	053717
journal	Physical Review A
Volume	112
Numéro de publication	5
Les DOIs	https://doi.org/10.1103/jd4l-qy2j
état	Publié - 17 nov. 2025
Modification externe	Oui

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10.1103/jd4l-qy2j

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abstract = "We propose and implement a protocol to measure the state-dependent motion of Rydberg atoms induced by dipole-dipole interactions. Our setup enables simultaneous readout of both the atomic internal state and position on a one-dimensional array of optical tweezers.We benchmark the protocol using two atoms in the same Rydberg state, which experience van der Waals repulsion, and measure velocities in agreement with theoretical predictions. When preparing the atoms in a different pair state, we observe an oscillatory dynamics that we attribute to the proximity of a macrodimer bound state. Finally, we perform a Stern-Gerlach-like experiment in which a superposition of the two previous pair states results in the separation of the atomic wave packet into two macroscopically distinct trajectories, thereby demonstrating spin-motion coupling mediated by the interactions.",

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AU - Emperauger, Gabriel

AU - Qiao, Mu

AU - Bornet, Guillaume

AU - Chew, Yuki Torii

AU - Martin, Romain

AU - Gély, Bastien

AU - Klein, Lukas

AU - Barredo, Daniel

AU - Lahaye, Thierry

AU - Browaeys, Antoine

PY - 2025/11/17

Y1 - 2025/11/17

N2 - We propose and implement a protocol to measure the state-dependent motion of Rydberg atoms induced by dipole-dipole interactions. Our setup enables simultaneous readout of both the atomic internal state and position on a one-dimensional array of optical tweezers.We benchmark the protocol using two atoms in the same Rydberg state, which experience van der Waals repulsion, and measure velocities in agreement with theoretical predictions. When preparing the atoms in a different pair state, we observe an oscillatory dynamics that we attribute to the proximity of a macrodimer bound state. Finally, we perform a Stern-Gerlach-like experiment in which a superposition of the two previous pair states results in the separation of the atomic wave packet into two macroscopically distinct trajectories, thereby demonstrating spin-motion coupling mediated by the interactions.

AB - We propose and implement a protocol to measure the state-dependent motion of Rydberg atoms induced by dipole-dipole interactions. Our setup enables simultaneous readout of both the atomic internal state and position on a one-dimensional array of optical tweezers.We benchmark the protocol using two atoms in the same Rydberg state, which experience van der Waals repulsion, and measure velocities in agreement with theoretical predictions. When preparing the atoms in a different pair state, we observe an oscillatory dynamics that we attribute to the proximity of a macrodimer bound state. Finally, we perform a Stern-Gerlach-like experiment in which a superposition of the two previous pair states results in the separation of the atomic wave packet into two macroscopically distinct trajectories, thereby demonstrating spin-motion coupling mediated by the interactions.

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JO - Physical Review A

JF - Physical Review A

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Probing spin-motion coupling of two Rydberg atoms by a Stern-Gerlach-like experiment

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