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Main Authors: Liang, Dan-Dan, Shen, Xin, Li, Zhi
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.08236
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author Liang, Dan-Dan
Shen, Xin
Li, Zhi
author_facet Liang, Dan-Dan
Shen, Xin
Li, Zhi
contents Topological non-trivial band structures are the core problem in the field of topological materials. In this paper, we investigate the topological band structure in a system with controllable Dirac points from the perspective of wave packet dynamics. By adding a third-nearest-neighboring coupling to the graphene model, additional pairs of Dirac points emerge. The emergence and annihilation of Dirac points result in hybrid and parabolic points, and we show that these band structures can be revealed by the dynamical behaviors of wave packets. Particularly, for the gapped hybrid point, the motion of the wave packet shows a one-dimensional \emph{Zitterbewegung} motion. Furthermore, we also show that the winding number associated with the Dirac point and parabolic point can be determined via the center-of-mass and spin texture of wave packets, respectively. The results of this work could motivate new experimental methods to characterize the system's topological signatures through wave packet dynamics, which may also find application in systems of other exotic topological materials.
format Preprint
id arxiv_https___arxiv_org_abs_2605_08236
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Dynamically Characterizing the Structures of Dirac Points via Wave Packets
Liang, Dan-Dan
Shen, Xin
Li, Zhi
Mesoscale and Nanoscale Physics
Quantum Physics
Topological non-trivial band structures are the core problem in the field of topological materials. In this paper, we investigate the topological band structure in a system with controllable Dirac points from the perspective of wave packet dynamics. By adding a third-nearest-neighboring coupling to the graphene model, additional pairs of Dirac points emerge. The emergence and annihilation of Dirac points result in hybrid and parabolic points, and we show that these band structures can be revealed by the dynamical behaviors of wave packets. Particularly, for the gapped hybrid point, the motion of the wave packet shows a one-dimensional \emph{Zitterbewegung} motion. Furthermore, we also show that the winding number associated with the Dirac point and parabolic point can be determined via the center-of-mass and spin texture of wave packets, respectively. The results of this work could motivate new experimental methods to characterize the system's topological signatures through wave packet dynamics, which may also find application in systems of other exotic topological materials.
title Dynamically Characterizing the Structures of Dirac Points via Wave Packets
topic Mesoscale and Nanoscale Physics
Quantum Physics
url https://arxiv.org/abs/2605.08236