Dissipative fractional standard maps: Riemann-Liouville and Caputo

J. A. Mendez-Bermudez, R. Aguilar-Sanchez
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Abstract

In this study, given the inherent nature of dissipation in realistic dynamical systems, we explore the effects of dissipation within the context of fractional dynamics. Specifically, we consider the dissipative versions of two well known fractional maps: the Riemann-Liouville (RL) and the Caputo (C) fractional standard maps (fSMs). Both fSMs are two-dimensional nonlinear maps with memory given in action-angle variables $(I_n,\theta_n)$; $n$ being the discrete iteration time of the maps. In the dissipative versions these fSMs are parameterized by the strength of nonlinearity $K$, the fractional order of the derivative $\alpha\in(1,2]$, and the dissipation strength $\gamma\in(0,1]$. In this work we focus on the average action $\left< I_n \right>$ and the average squared action $\left< I_n^2 \right>$ when~$K\gg1$, i.e. along strongly chaotic orbits. We first demonstrate, for $|I_0|>K$, that dissipation produces the exponential decay of the average action $\left< I_n \right> \approx I_0\exp(-\gamma n)$ in both dissipative fSMs. Then, we show that while $\left< I_n^2 \right>_{RL-fSM}$ barely depends on $\alpha$ (effects are visible only when $\alpha\to 1$), any $\alpha< 2$ strongly influences the behavior of $\left< I_n^2 \right>_{C-fSM}$. We also derive an analytical expression able to describe $\left< I_n^2 \right>_{RL-fSM}(K,\alpha,\gamma)$.
耗散分数标准映射:黎曼-刘维尔与卡普托
在本研究中,鉴于耗散在现实动力学系统中的固有性质,我们探讨了耗散在分数动力学背景下的影响。具体来说,我们考虑了两个众所周知的分数映射的耗散版本:黎曼-刘维尔(RL)和卡普托(C)分数标准映射(fSMs)。这两个分数标准映射都是二维非线性映射,其记忆以作用角变量$(I_n,\theta_n)$给出;$n$是映射的离散迭代时间。在耗散版本中,这些 fSM 的参数包括非线性强度 $K$、分阶分量系数 $alpha/in(1,2]$,以及耗散强度 $\gamma/in(0,1]$。在这项工作中,我们重点研究当~$K\gg1$,即沿着强混沌轨道时的平均作用$left< I_n \right>$和平均平方作用$left< I_n^2 \right>$。我们首先证明,对于$|I_0|>K$,耗散会在这两个耗散fSM中产生平均作用$\left< I_n \right> \approxI_0\exp(-\gamma n)$的指数衰减。然后,我们证明,虽然 $left_{RL-fSM}$几乎不依赖于 $\alpha$(只有当 $\alpha\to 1$ 时效果才明显),但任何 $\alpha< 2$ 都会强烈影响 $left< I_n^2 \right>_{C-fSM}$的行为。我们还推导出一个分析表达式,能够描述 $left< I_n^2 \right>_{RL-fSM}(K,\alpha,\gamma)$ 。
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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