费米-帕斯塔-乌兰-钦古系统中的周期轨道

arXiv - PHYS - Pattern Formation and Solitons Pub Date : 2024-06-16 DOI:arxiv-2406.10790

Nachiket Karve, Nathan Rose, David Campbell

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引用次数: 0

摘要

FPUT 悖论是指具有非线性耦合的一维振子链表现出非啮合行为的现象。长波长初始条件下的系统在相空间中的轨迹在短时间内与户田模型的轨迹非常接近，因为这两个系统似乎都会迅速松弛到非热稳定性状态。在较长的时间内，FPUT 谱中的共振会推动系统走向平衡，远离托达轨迹。在q$呼吸器光谱中也观察到了类似的共振，这表明q$呼吸器参与了热化过程。在这篇文章中，我们对这种共振进行了研究，结果表明，它们的产生是由于 $m\Omega_1 = \Omega_k$类型的q$呼吸器频率的精确重叠。共振在能谱中表现为峰值。此外，它们还产生了复合周期轨道，这些轨道与原始的 $q$ 呼吸器同时存在。我们发现这种共振在可积分系统中是不存在的，这是与可积分性相关的（无限多的）守恒定律的结果。

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Periodic Orbits in Fermi-Pasta-Ulam-Tsingou Systems

The FPUT paradox is the phenomenon whereby a one-dimensional chain of oscillators with nonlinear couplings shows non-ergodic behavior. The trajectory of the system in phase space, with a long wavelength initial condition, closely follows that of the Toda model over short times, as both systems seem to relax quickly to a non-thermal, metastable state. Over longer times, resonances in the FPUT spectrum drive the system towards equilibrium, away from the Toda trajectory. Similar resonances are observed in $q$-breather spectra, suggesting that $q$-breathers are involved in the route towards thermalization. In this article we investigate such resonances and show that they occur due to exact overlaps of $q$-breather frequencies of the type $m\Omega_1 = \Omega_k$. The resonances appear as peaks in the energy spectrum. Further, they give rise to new composite periodic orbits, which exist simultaneously with the original $q$-breathers. We find that such resonances are absent in integrable systems, as a consequence of the (infinite number of) conservation laws associated with integrability.

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arXiv - PHYS - Pattern Formation and Solitons

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