Optomechanical Chaos in Kerr Resonators: From Optical Microcavities to Nonlinear Dynamics

Optical microcavities have been extensively studied in recent years due to their excellent characteristics and wide range of applications. They are capable of confining light to extremely small volumes, leading to enhanced light-matter interactions and enabling the exploration of fundamental physics phenomena. However, their nonlinearity can also give rise to complex dynamics and chaos, which can limit their performance in certain applications. This paper aims to investigate the optomechanical chaos in a Kerr resonator, which is a type of optical microcavity, and explore its potential implications for future devices. By understanding the underlying physics of this phenomenon, we hope to develop strategies to mitigate its effects and improve the performance of nonlinear optical devices.