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On-demand tailoring soliton patterns through intracavity spectral phase programming

Heze Zhang, Chao Zeng, Yueqing Du, Guanghua Cheng, Biqiang Jiang, Zhipei Sun, Xuechun Lin, Meng Pang, Jianlin Zhao, Dong Mao

2025Nature Communications22 citationsDOIOpen Access PDF

Abstract

Multi-pulse oscillations are prevalent phenomena observed in mode-locked lasers and nonlinear microresonators, where the short- and long-range interactions between nonlinear wavepackets give rise to diverse pulse patterns such as soliton molecules, soliton crystals, and soliton bursts. However, these intricate nonlinear interactions are highly sensitive to the parameters of dissipative systems, leaving the properties of multiple pulses far from being controlled, which hampers their applications such as high-speed optical communication and material processing. In this study, we propose a universal approach for quantitatively tailoring multiple solitons in mode-locked fibre lasers through spectral phase programming, enabling the on-demand generation of soliton patterns with separations that follow from constant, geometric, or arithmetic sequences. By combining with spectral filtering, we demonstrate dual-colour soliton patterns in the same cavity, further highlighting the adaptability of soliton structures. Numerical simulations validate the experimental observations, demonstrating that the spectral phase modulates solitons to emit sub-pulses, which interact with other solitons to generate trapping potentials, thereby giving rise to diverse soliton patterns. Multi-pulse oscillations are prevalent phenomena in mode-locked lasers and microresonators. Here, the authors achieve the on-demand tailoring of multiple solitons via spectral phase programming, resulting in soliton patterns with separations following constant, geometric, and arithmetic sequences.

Topics & Concepts

Phase (matter)Computer scienceSolitonPhysicsNonlinear systemQuantum mechanicsAdvanced Fiber Laser TechnologiesOptical Network TechnologiesLaser-Matter Interactions and Applications
On-demand tailoring soliton patterns through intracavity spectral phase programming | Litcius