Higher order mass aggregation terms in a nonlinear predator-prey model maintain limit cycle stability in Saturn's F ring

arXiv - PHYS - General Physics Pub Date : 2024-07-24 DOI:arxiv-2407.17538

Omar El Deeb

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Abstract

We consider a generic higher order mass aggregation term for interactions between particles exhibiting oscillatory clumping and disaggregation behavior in the F ring of Saturn, using a novel predator-prey model that relates the mean mass aggregate (prey) and the square of the relative dispersion velocity (predator) of the interacting particles. The resulting cyclic dynamic behavior is demonstrated through time series plots, phase portraits and their stroboscopic phase maps. Employing an eigenvalue stability analysis of the Jacobian of the system, we find out that there are two distinct regimes depending on the exponent and the amplitude of the higher order interactions of the nonlinear mass term. In particular, the system exhibits a limit cycle oscillatory stable behavior for a range of values of these parameters and a non-cyclic behavior for another range, separated by a curve across which phase transitions would occur between the two regimes. This shows that the observed clumping dynamics in Saturn's F ring, corresponding to a limit cycle stability regime, can be systematically maintained in presence of physical higher order mass aggregation terms in the introduced model.

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非线性捕食者-猎物模型中的高阶质量聚集项维持土星 F 环的极限循环稳定性

我们利用一个新颖的捕食者-猎物模型，考虑了土星 F 环中表现出振荡结块和分解行为的粒子之间相互作用的一般高阶质量聚集项，该模型将质量聚集（猎物）主题与相互作用粒子的相对分散速度（捕食者）的平方联系起来。由此产生的循环动态行为通过时间序列图、相位图和旋转相位图得以展示。通过对该系统的雅各布函数进行特征值稳定性分析，我们发现根据非线性质量项的高阶相互作用的指数和振幅，存在两种截然不同的状态。特别是，在这些参数值的范围内，系统表现出一种极限循环振荡稳定行为，而在另一个范围内则表现出一种非循环行为。这表明，在土星福林中观测到的团块动力学（对应于极限循环稳定机制），可以在引入模型中存在物理高阶质量聚集项的情况下系统地保持。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - General Physics

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