Nonlinear topological pumping of edge solitons
- URL: http://arxiv.org/abs/2501.00019v1
- Date: Mon, 16 Dec 2024 09:06:04 GMT
- Title: Nonlinear topological pumping of edge solitons
- Authors: Xinrui You, Liaoyuan Xiao, Yongguan Ke, Chaohong Lee,
- Abstract summary: We study how nonlinear strength affects topological pumping of edge solitons.
For weak nonlinear strength, the introduction of nonlinearity breaks the symmetry of the energy spectrum.
For stronger nonlinear strength, edge solitons are self-trapped and all topological pumping channels are shut down.
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- Abstract: We study how nonlinear strength affects topological pumping of edge solitons by using nonlinear Gross-Pitaevskii equation. For weak nonlinear strength, the introduction of nonlinearity breaks the symmetry of the energy spectrum, which makes the topological pumping from the left edge to the right edges differ from the inverse process. For moderate nonlinear strength, self-crossing structures appear in the spectrum, the right-to-left adiabatic pumping channel is destroyed, and only left-to-right topological pumping can be achieved under slow modulation. As the nonlinear strength further inreases, although left-to-right topological pumping in one pumping cycle also breaks down, we find that a thin soliton which is located in a single left edge can be mixed with the bulk soliton, and hybridized topological pumping of edge and bulk solitons can be realized after multiple pumping cycles. For stronger nonlinear strength, edge solitons are self-trapped and all topological pumping channels are shut down. Our work could trigger further studies of the interplay between nonlinearity and topology.
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