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Autori principali: Baldovin, Marco, Vallet, Grégoire, Hagel, Gaëtan, Trizac, Emmanuel, Champenois, Caroline
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2311.15757
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author Baldovin, Marco
Vallet, Grégoire
Hagel, Gaëtan
Trizac, Emmanuel
Champenois, Caroline
author_facet Baldovin, Marco
Vallet, Grégoire
Hagel, Gaëtan
Trizac, Emmanuel
Champenois, Caroline
contents We propose a joint experimental and theoretical approach to measure the self-diffusion in a laser-cooled trapped ion cloud where part of the ions are shelved in a long-lived dark state. The role of the self-diffusion coefficient in the spatial organisation of the ions is deciphered, following from the good agreement between the experimental observations and the theoretical predictions. This comparison furthermore allows to deduce the temperature of the sample. Protocols to measure the self-diffusion coefficient are discussed, in regard with the control that can be reached on the relevant time scales through the dressing of the atomic levels by laser fields.
format Preprint
id arxiv_https___arxiv_org_abs_2311_15757
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Self-diffusion in a strongly coupled non-neutral plasma
Baldovin, Marco
Vallet, Grégoire
Hagel, Gaëtan
Trizac, Emmanuel
Champenois, Caroline
Atomic Physics
We propose a joint experimental and theoretical approach to measure the self-diffusion in a laser-cooled trapped ion cloud where part of the ions are shelved in a long-lived dark state. The role of the self-diffusion coefficient in the spatial organisation of the ions is deciphered, following from the good agreement between the experimental observations and the theoretical predictions. This comparison furthermore allows to deduce the temperature of the sample. Protocols to measure the self-diffusion coefficient are discussed, in regard with the control that can be reached on the relevant time scales through the dressing of the atomic levels by laser fields.
title Self-diffusion in a strongly coupled non-neutral plasma
topic Atomic Physics
url https://arxiv.org/abs/2311.15757