Spatiotemporal Nonlinear Pulse Dynamics in Multimode Silicon Nitride Waveguides
Spatiotemporal Nonlinear Pulse Dynamics in Multimode Silicon Nitride Waveguides
We present an open-source multimode nonlinear Schrödinger equation-based simulation to investigate spatiotemporal nonlinear pulse propagation in thin-film silicon nitride (SiN) waveguides. Using this framework, we analyze femtosecond pulse evolution under diverse excitation conditions in a 6 μm wide SiN waveguide supporting six TE modes. Our results reveal that mode selection and power distribution critically govern nonlinear coupling, soliton fission, and dispersive wave generation, leading to broadband spectra exceeding 3 μm. Our findings reveal that input mode engineering is a powerful strategy for tailoring ultrafast nonlinear dynamics in integrated photonic platforms, with applications in supercontinuum generation, frequency combs, and programmable nonlinear optics.
Azka Maula Iskandar Muda、Uğur Teğin
物理学光电子技术
Azka Maula Iskandar Muda,Uğur Teğin.Spatiotemporal Nonlinear Pulse Dynamics in Multimode Silicon Nitride Waveguides[EB/OL].(2025-08-26)[2025-09-05].https://arxiv.org/abs/2508.18945.点此复制
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