多稳态
非线性系统
物理
统计物理学
计算机科学
非线性动力系统
理论(学习稳定性)
动力系统理论
吸引子
隐变量理论
复杂系统
拓扑(电路)
人工智能
控制(管理)
油藏计算
理论物理学
基石
作者
Kun Zhang,Qicheng Zhang,Shuaishuai Tong,Wenquan Wu,Xiling Feng,Chunyin Qiu
摘要
Multistability-the coexistence of multiple stable states-is a cornerstone of nonlinear dynamical systems, governing their equilibrium, tunability, and emergent complexity. Recently, the concept of hidden multistability, where certain stable states evade detection via conventional continuous parameter sweeping, has garnered increasing attention due to its elusive nature and promising applications. In this Letter, we present the first experimental observation of hidden multistability using a programmable acoustic coupled-cavity platform that integrates competing self-focusing and self-defocusing Kerr nonlinearities. Beyond established bistability, we demonstrate semihidden and fully hidden tristabilities by precisely programming system parameters. Crucially, the hidden stable states, typically inaccessible via the traditional protocol, are unambiguously revealed and dynamically controlled through pulsed excitation, enabling flexible transitions between distinct types of stable states. These experimental findings not only offer new insights into the fundamental physics of emerging hidden multistability, but also unlock new avenues for applications in information storage, information encryption, and safety precaution, where multistate dynamics could enable advanced control techniques.
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