Chaotic scattering in ultracold atom-ion collisions

Meirav Pinkas; Jonathan Wengrowicz; Nitzan Akerman; Roee Ozeri

doi:10.48550/arXiv.2401.18003

Chaotic scattering in ultracold atom-ion collisions

Meirav Pinkas, Jonathan Wengrowicz, Nitzan Akerman, Roee Ozeri

Department of Physics of Complex Systems

Research output: Contribution to journal › Article

Abstract

We report on signatures of classical chaos in ultracold collisions between a trapped ion and a free atom. Using numerical simulations, we show that the scattering dynamics can be highly sensitive to initial conditions for various mass ratios and trapping frequencies, indicating the onset of chaos. We quantify this chaotic dynamics by calculating its fractal dimension. We show that for a trapped ⁸⁸Sr⁺ ion and a free ⁸⁷Rb atom chaotic dynamic appears under experimentally relevant conditions, and find its characteristic energy scale. The observation of classical chaos in atom-trapped-ion collisions suggests that signatures of quantum chaos might appear, for example, through a Wigner-Dyson distribution of collisional resonances.

Original language	English
Number of pages	9
Journal	arXiv.org
DOIs	https://doi.org/10.48550/arXiv.2401.18003
Publication status	In preparation - 24 Jan 2024

Funding

We thank Boaz Katz, Doron Kushnir, John Bohn, Or Katz, Oren Raz, Eleanor Trimby, and Rene Gerritsma for fruitful discussions. This work was supported by the Israeli Science Foundation Grant number 1385/19.

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10.48550/arXiv.2401.18003Licence: CC BY

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abstract = "We report on signatures of classical chaos in ultracold collisions between a trapped ion and a free atom. Using numerical simulations, we show that the scattering dynamics can be highly sensitive to initial conditions for various mass ratios and trapping frequencies, indicating the onset of chaos. We quantify this chaotic dynamics by calculating its fractal dimension. We show that for a trapped 88Sr+ ion and a free 87Rb atom chaotic dynamic appears under experimentally relevant conditions, and find its characteristic energy scale. The observation of classical chaos in atom-trapped-ion collisions suggests that signatures of quantum chaos might appear, for example, through a Wigner-Dyson distribution of collisional resonances.",

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AB - We report on signatures of classical chaos in ultracold collisions between a trapped ion and a free atom. Using numerical simulations, we show that the scattering dynamics can be highly sensitive to initial conditions for various mass ratios and trapping frequencies, indicating the onset of chaos. We quantify this chaotic dynamics by calculating its fractal dimension. We show that for a trapped 88Sr+ ion and a free 87Rb atom chaotic dynamic appears under experimentally relevant conditions, and find its characteristic energy scale. The observation of classical chaos in atom-trapped-ion collisions suggests that signatures of quantum chaos might appear, for example, through a Wigner-Dyson distribution of collisional resonances.

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Chaotic scattering in ultracold atom-ion collisions

Abstract

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