Wave Packets in the Fractional Nonlinear Schrödinger Equation with a Honeycomb Potential

Peng Xie, Yi Zhu
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引用次数: 3

Abstract

In this article, we study wave dynamics in the fractional nonlinear Schrodinger equation with a modulated honeycomb potential. This problem arises from recent research interests in the interplay between topological materials and nonlocal governing equations. Both are current focuses in scientific research fields. We first develop the Floquet-Bloch spectral theory of the linear fractional Schrodinger operator with a honeycomb potential. Especially, we prove the existence of conical degenerate points, i.e., Dirac points, at which two dispersion band functions intersect. We then investigate the dynamics of wave packets spectrally localized at a Dirac point and derive the leading effective envelope equation. It turns out the envelope can be described by a nonlinear Dirac equation with a varying mass. With rigorous error estimates, we demonstrate that the asymptotic solution based on the effective envelope equation approximates the true solution well in the weighted-$H^s$ space.
具有蜂窝电位的分数阶非线性Schrödinger方程中的波包
在本文中,我们研究了具有调制蜂窝电位的分数阶非线性薛定谔方程中的波动动力学。这个问题产生于最近对拓扑材料与非局部控制方程之间相互作用的研究兴趣。两者都是当前科学研究领域的热点。我们首先发展了具有蜂窝势的线性分数阶薛定谔算子的Floquet-Bloch谱理论。特别地,我们证明了两个色散带函数相交的圆锥形退化点,即狄拉克点的存在性。然后,我们研究了谱局域于狄拉克点的波包的动力学,并推导了领先的有效包络方程。包络线可以用一个质量变化的非线性狄拉克方程来描述。在严格的误差估计下,我们证明了基于有效包络方程的渐近解在加权-$H^s$空间中很好地逼近了真解。
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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