Abstract

Soliton self-mode conversion is a versatile technique that allows for both wavelength changes and mode transformations. This process can be controlled by adjusting the input power, with higher power resulting in a stronger nonlinear effect that facilitates soliton self-mode conversion. Our research has demonstrated that soliton self-mode conversion is a viable method for achieving spatiotemporal coupling. This technique can be applied in optical fibers to link two pulses, resulting in distinct spatial distributions that can be controlled by adjusting the initial time intervals.

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Soliton and bound-state soliton mode-locked fiber laser based on polarization-dependent grating

Chen Jiang, Rui Zhou, Zhen Fang, Ying Wan, Bing Sun, Chengbo Mou, Yunqi Liu, and Zuxing Zhang
Opt. Lett. 48(22) 5875-5878 (2023)

Soliton self-mode conversion: revisiting Raman scattering of ultrashort pulses

L. Rishøj, B. Tai, P. Kristensen, and S. Ramachandran
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Observation of multimode solitons in few-mode fiber

Zimu Zhu, Logan G. Wright, Demetrios N. Christodoulides, and Frank W. Wise
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Deep neural network for modeling soliton dynamics in the mode-locked laser

Yin Fang, Hao-Bin Han, Wen-Bo Bo, Wei Liu, Ben-Hai Wang, Yue-Yue Wang, and Chao-Qing Dai
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Self-consistent soliton evolution in single–two-mode fiber lasers

Lingxiao Liu, Zhiwen He, Qun Gao, Yueqing Du, Chao Zeng, and Dong Mao
Opt. Lett. 47(24) 6369-6372 (2022)