非线性阿哈诺夫-玻姆环中的手性孤波观测

arXiv - PHYS - Pattern Formation and Solitons Pub Date : 2024-06-03 DOI:arxiv-2406.01732

Ivan Velkovsky, Anya Abraham, Enrico Martello, Jiarui Yu, Yaashnaa Singhal, Antonio Gonzalez, DaVonte Lewis, Hannah Price, Tomoki Ozawa, Bryce Gadway

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引用次数: 0

摘要

非线性会对离散晶格系统的动力学和平衡特性产生深远影响。具有自非线性的两个耦合模式的简单情况会产生丰富的玻色约瑟夫森效应。在多晶格阵列中，非线性产生了大量丰富的现象，包括各种孤子激发、规规场存在时涡旋晶格的出现以及混沌动力学的一般支持。在这里，我们实验性地探索了具有可调规场和非线性的三位机械环。我们观察到一种宏观的自捕获转变，这种转变可由磁通量调节，与平衡响应一致。我们还观察到了只出现在平衡状态之外的新行为，即出现了相互作用稳定的手性孤波。这些结果为探索与静态和动态量规场耦合的更大机械阵列中出现的非线性现象提供了一个起点。

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Observation of chiral solitary waves in a nonlinear Aharonov-Bohm ring

Nonlinearities can have a profound influence on the dynamics and equilibrium properties of discrete lattice systems. The simple case of two coupled modes with self-nonlinearities gives rise to the rich bosonic Josephson effects. In many-site arrays, nonlinearities yield a wealth of rich phenomena, including a variety of solitonic excitations, the emergence of vortex lattices in the presence of gauge fields, and the general support of chaotic dynamics. Here, we experimentally explore a three-site mechanical ring with tunable gauge fields and nonlinearities. We observe a macroscopic self-trapping transition that is tunable by the magnetic flux, consistent with the equilibrium response. We further observe novel behavior that appears only out of equilibrium, the emergence of interaction-stabilized chiral solitary waves. These results provide a starting point to explore nonlinear phenomena arising in larger mechanical arrays coupled to static and dynamical gauge fields.

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arXiv - PHYS - Pattern Formation and Solitons

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