Dissipative Nonlinear Thouless Pumping of Temporal Solitons

Xuzhen Cao, Chunyu Jia, Ying Hu, Zhaoxin Liang
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Abstract

The interplay between topology and soliton is a central topic in nonlinear topological physics. So far, most studies have been confined to conservative settings. Here, we explore Thouless pumping of dissipative temporal solitons in a nonconservative one-dimensional optical system with gain and spectral filtering, described by the paradigmatic complex Ginzburg-Landau equation. Two dissipatively induced nonlinear topological phase transitions are identified. First, when varying dissipative parameters across a threshold, the soliton transitions from being trapped in time to quantized drifting. This quantized temporal drift remains robust, even as the system evolves from a single-soliton state into multi-soliton state. Second, a dynamically emergent phase transition is found: the soliton is arrested until a critical point of its evolution, where a transition to topological drift occurs. Both phenomena uniquely arise from the dynamical interplay of dissipation, nonlinearity and topology.
时空孤子的耗散非线性无抽运
拓扑与孤子之间的相互作用是非线性拓扑物理学的一个核心课题。迄今为止,大多数研究都局限于保守孤子。在这里,我们探索了无汝抽运耗散时空孤子的非保守一维光学系统,该系统具有增益和光谱过滤功能,由典型的复杂金兹堡-朗道方程描述。首先,当耗散参数的变化跨越阈值时,孤子会从时间滞留转变为量子化漂移。即使系统从单溶胶子状态演变为多溶胶子状态,这种量子化的时间漂移仍然保持稳健。其次,我们发现了一种动态出现的相变:孤子在其演化的临界点之前一直处于停滞状态,并在此过渡到拓扑漂移。这两种现象都独特地产生于耗散、非线性和拓扑的动态相互作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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