斑马鱼（Danio rerio）极化时间序列中的多分形波动。

IF 1.8 4区物理与天体物理 Q4 CHEMISTRY, PHYSICAL

The European Physical Journal E Pub Date : 2024-05-05 DOI:10.1140/epje/s10189-024-00423-w

Antonio R. de C. Romaguera, João V. A. Vasconcelos, Luis G. Negreiros-Neto, Nathan L. Pessoa, Jadson F. da Silva, Pabyton G. Cadena, Adauto J. F. de Souza, Viviane M. de Oliveira, Anderson L. R. Barbosa

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引用次数: 0

摘要

在这项工作中，我们研究了通过实验观察一群封闭在圆形水槽中的斑马鱼（Danio rerio）所获得的偏振时间序列。个体轨迹演变的复杂动态导致了多种特征尺度的出现。利用多分形去趋势波动分析（MF-DFA），我们发现所使用的参数具有不同的行为。在鱼群密度较低时，偏振时间序列是多分形的，其平均尺度为 ρ - 1 / 4。另一方面，在鱼类密度较高时，极化时间序列趋向于单分形，其平均尺度为 ρ - 1 / 2。这两种情况在临界密度 ρ c 时重叠，表明存在一个将它们分开的相变。我们还观察到，在低密度情况下，极化速度表现为非高斯行为，带有与长程相关性有关的重尾，而在高密度情况下则变为高斯行为，呈现出一种非相关机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

$Multifractal fluctuations in zebrafish (Danio rerio) polarization time series$

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Multifractal fluctuations in zebrafish (Danio rerio) polarization time series

In this work, we study the polarization time series obtained from experimental observation of a group of zebrafish (Danio rerio) confined in a circular tank. The complex dynamics of the individual trajectory evolution lead to the appearance of multiple characteristic scales. Employing the Multifractal Detrended Fluctuation Analysis (MF-DFA), we found distinct behaviors according to the parameters used. The polarization time series are multifractal at low fish densities and their average scales with $\rho ^{-1/4}$. On the other hand, they tend to be monofractal, and their average scales with $\rho ^{-1/2}$ for high fish densities. These two regimes overlap at critical density $\rho _c$, suggesting the existence of a phase transition separating them. We also observed that for low densities, the polarization velocity shows a non-Gaussian behavior with heavy tails associated with long-range correlation and becomes Gaussian for high densities, presenting an uncorrelated regime.

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来源期刊

The European Physical Journal E CHEMISTRY, PHYSICAL-MATERIALS SCIENCE, MULTIDISCIPLINARY

CiteScore

2.60

自引率

5.60%

发文量

审稿时长

3 months

期刊介绍： EPJ E publishes papers describing advances in the understanding of physical aspects of Soft, Liquid and Living Systems. Soft matter is a generic term for a large group of condensed, often heterogeneous systems -- often also called complex fluids -- that display a large response to weak external perturbations and that possess properties governed by slow internal dynamics. Flowing matter refers to all systems that can actually flow, from simple to multiphase liquids, from foams to granular matter. Living matter concerns the new physics that emerges from novel insights into the properties and behaviours of living systems. Furthermore, it aims at developing new concepts and quantitative approaches for the study of biological phenomena. Approaches from soft matter physics and statistical physics play a key role in this research. The journal includes reports of experimental, computational and theoretical studies and appeals to the broad interdisciplinary communities including physics, chemistry, biology, mathematics and materials science.