From breather soliton molecules to chaos in a laser cavity: the scenario of intermittent transitions.

IF 3.2 2区 物理与天体物理 Q2 OPTICS Optics express Pub Date : 2024-07-15 DOI:10.1364/OE.530009
Xiaowei Lu, Runmin Liu, Mingyu Guo, Defeng Zou, Youjian Song
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Abstract

Intermittency is widely observed in various nonlinear dynamical systems as an intriguing transient dynamic far from equilibrium. The internal dynamics formed by a pair of interacting optical solitons are often analogized to typical nonlinear systems. However, whether intermittency exists within the intramolecular motion remains to be investigated. Here, we study the intermittent dynamics of soliton molecules in ultrafast lasers, employing balanced optical cross-correlation techniques with sub-femtosecond temporal resolution. We demonstrate the occurrence of the bursting phase of intense variations of pulse separation within regular breather rhythms. In addition, we discover the intermittent transitions route to chaotic soliton molecules, facilitated by gain control. A series of analysis methods are used to assess the chaotic signals, providing compelling experimental evidence that soliton molecules can be analogized to their matter molecule counterparts. Our experimental findings shed light on the non-equilibrium intramolecular dynamics, providing insight into the transition of the attractors within interacting dissipative solitons in laser and fiber resonators.

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从呼吸孤子分子到激光腔中的混沌:间歇转换的情景。
在各种非线性动力学系统中,间歇性作为一种远离平衡的有趣瞬态动态被广泛观察到。一对相互作用的光学孤子所形成的内部动力学通常被类比为典型的非线性系统。然而,分子内运动是否存在间歇性仍有待研究。在这里,我们采用亚飞秒时间分辨率的平衡光学交叉相关技术,研究了超快激光器中孤子分子的间歇动力学。我们证明了在有规律的呼吸节奏中出现脉冲间隔剧烈变化的爆发阶段。此外,我们还通过增益控制发现了通向混沌孤子分子的间歇转换途径。我们采用了一系列分析方法来评估混沌信号,从而提供了令人信服的实验证据,证明孤子分子可以类比为物质分子。我们的实验发现揭示了分子内的非平衡动力学,为激光和光纤谐振器中相互作用的耗散孤子内吸引子的转变提供了深入的见解。
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来源期刊
Optics express
Optics express 物理-光学
CiteScore
6.60
自引率
15.80%
发文量
5182
审稿时长
2.1 months
期刊介绍: Optics Express is the all-electronic, open access journal for optics providing rapid publication for peer-reviewed articles that emphasize scientific and technology innovations in all aspects of optics and photonics.
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