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Main Authors: Jiao, Yuechun, Zhang, Yu, Bai, Jingxu, Jiang, Weilun, He, Yunhui, Shen, Heng, Jia, Suotang, Zhao, Jianming, Adams, C. Stuart
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2408.01726
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author Jiao, Yuechun
Zhang, Yu
Bai, Jingxu
Jiang, Weilun
He, Yunhui
Shen, Heng
Jia, Suotang
Zhao, Jianming
Adams, C. Stuart
author_facet Jiao, Yuechun
Zhang, Yu
Bai, Jingxu
Jiang, Weilun
He, Yunhui
Shen, Heng
Jia, Suotang
Zhao, Jianming
Adams, C. Stuart
contents Physical systems that display competitive non-linear dynamics have played a key role in the development of mathematical models of Nature. Important examples include predator-prey models in ecology, biology, consumer-resource models in economics, and reaction-diffusion equations in chemical reactions. However, as real world systems are embedded in complex environments, where it is difficult or even impossible to control external parameters, quantitative comparison between measurements and simple models remains challenging. This motivates the search for competitive dynamics in isolated physical systems, with precise control. An ideal candidate is laser excitation in dilute atomic ensembles. For example, atoms in highly-excited Rydberg states display rich many-body dynamics including ergodicity breaking, synchronisation and time crystals. Here, we demonstrate predator-prey dynamics by laser excitation and ionisation of Rydberg atoms in a room temperature vapour cell. Ionisation of excited atoms produce electric fields that suppress further excitation. This starves the ionisation process of resource, giving rise to predator-prey dynamics. By comparing our results to the Lotka-Volterra model, we demonstrate that as well applications in non-linear dynamics, our experiment has applications in metrology, and remote sensing of localised plasmas.
format Preprint
id arxiv_https___arxiv_org_abs_2408_01726
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Quantum Lotka-Volterra dynamics
Jiao, Yuechun
Zhang, Yu
Bai, Jingxu
Jiang, Weilun
He, Yunhui
Shen, Heng
Jia, Suotang
Zhao, Jianming
Adams, C. Stuart
Quantum Physics
Physical systems that display competitive non-linear dynamics have played a key role in the development of mathematical models of Nature. Important examples include predator-prey models in ecology, biology, consumer-resource models in economics, and reaction-diffusion equations in chemical reactions. However, as real world systems are embedded in complex environments, where it is difficult or even impossible to control external parameters, quantitative comparison between measurements and simple models remains challenging. This motivates the search for competitive dynamics in isolated physical systems, with precise control. An ideal candidate is laser excitation in dilute atomic ensembles. For example, atoms in highly-excited Rydberg states display rich many-body dynamics including ergodicity breaking, synchronisation and time crystals. Here, we demonstrate predator-prey dynamics by laser excitation and ionisation of Rydberg atoms in a room temperature vapour cell. Ionisation of excited atoms produce electric fields that suppress further excitation. This starves the ionisation process of resource, giving rise to predator-prey dynamics. By comparing our results to the Lotka-Volterra model, we demonstrate that as well applications in non-linear dynamics, our experiment has applications in metrology, and remote sensing of localised plasmas.
title Quantum Lotka-Volterra dynamics
topic Quantum Physics
url https://arxiv.org/abs/2408.01726