基于瞬时重要性采样的湍流能量级联壳模型中的极端波动。

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

The European Physical Journal E Pub Date : 2023-12-21 DOI:10.1140/epje/s10189-023-00392-6

Guilherme Tegoni Goedert, Luca Biferale

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引用次数: 0

摘要

许多非均衡流在物理相关观测值（如能量耗散率）中呈现非高斯波动。这意味着极端波动虽然很少被观测到，但却具有重要的现象学意义。最近，用于重要度采样的路径积分方法从最初为量子场论设计的形式主义中脱颖而出，并成功应用于布尔格斯方程和其他流体模型。我们建议使用贝壳模型探索这些方法的应用领域，贝壳模型是湍流能量级联的动力系统，可以对极端事件进行有效的数值采样，并呈现出许多有趣的特性。我们首先验证了热方程极限下基于瞬子的重要性采样方法。随着非线性的增强，我们探索了该方法的局限性，发现对于主要非线性系数的较小值，该方法具有良好的定性结果。当非线性强度增大时，整个系统的数值模拟结果与瞬时结果在估计分布平整度方面的一致性最差。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Instanton-based importance sampling for extreme fluctuations in a shell model for turbulent energy cascade

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Instanton-based importance sampling for extreme fluctuations in a shell model for turbulent energy cascade

Many out-of-equilibrium flows present non-Gaussian fluctuations in physically relevant observables, such as energy dissipation rate. This implies extreme fluctuations that, although rarely observed, have a significant phenomenology. Recently, path integral methods for importance sampling have emerged from formalism initially devised for quantum field theory and are being successfully applied to the Burgers equation and other fluid models. We proposed exploring the domain of application of these methods using a shell model, a dynamical system for turbulent energy cascade which can be numerically sampled for extreme events in an efficient manner and presents many interesting properties. We start from a validation of the instanton-based importance sampling methodology in the heat equation limit. We explored the limits of the method as nonlinearity grows stronger, finding good qualitative results for small values of the leading nonlinear coefficient. A worst agreement between numerical simulations of the whole systems and instanton results for estimation of the distribution’s flatness is observed when increasing the nonlinear intensities.

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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.