(Peer-Reviewed) Multistable soliton dynamics in an optical microresonator
Zichun Liao 廖子淳 ¹ ², Yuchong Cai 蔡宇翀 ¹ ², Lun Li 李仑 ⁵, Weiqiang Wang 王伟强 ³ ⁴, Shuai Li 李帅 ¹ ², Chi Zhang 张驰 ¹ ², Wenfu Zhang 张文富 ³ ⁴, Xinliang Zhang 张新亮 ¹ ²
¹ Wuhan National Laboratory for Optoelectronics & School of Optical and Electronic Information, Huazhong University of Science and Technology, Wuhan 430074, China
中国 武汉 华中科技大学光学与电子信息学院 武汉光电国家研究中心
² Optics Valley Laboratory, Wuhan 430074, China
中国 武汉 湖北光谷实验室
³ State Key Laboratory of Ultrafast Optical Science and Technology, Xi'an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi'an 710119, China
中国 西安 中国科学院西安光学精密机械研究所 超快光科学与技术全国重点实验室
⁴ University of Chinese Academy of Sciences, Beijing 100049, China
中国 北京 中国科学院大学
⁵ Photonics Research Institute & Department of Electrical and Electronic Engineering, The Hong Kong Polytechnic University, Hong Kong SAR 999077, China
中国 香港 香港理工大学 电机与电子工程学系 光子技术研究院
Opto-Electronic Advances, 2026-05-15
Abstract
Dissipative Kerr solitons (DKSs) generated in optical microresonators have shown considerable promise across multiple applications, particularly in metrology and spectroscopy. Multistable solitons enable on-chip single-cavity dual-comb generation, and can be excited via multicolor pumping in a microresonator featuring high-quality factor and strong nonlinearity, whose dispersion profile governs the soliton velocity mismatch.
However, real-time characterization of complex multistable soliton dynamics remains highly challenging due to their transient nature, large bandwidth, and high repetition rate. In this work, we generate multistable soliton dynamics using a dual-pump scheme targeting distinct cavity modes and report, for the first time, their simultaneous time- and spectral-domain characterization via a chirped coherent detection scheme.
These multistable solitons are measured at different carrier-envelope offset frequencies, allowing for the observation of soliton switching and annihilation processes during pump detuning. Furthermore, the gain transfer mechanisms underpinning the influence of pump detuning on soliton dynamics are investigated. This study not only deepens our understanding of complex soliton interactions within optical microresonators but also supports enhanced control and utilization of single-cavity dual-comb sources.
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