Valley-driven Zitterbewegung in Kekul\'e-distorted graphene
Abstract
Graphene deposited on top of a Copper(111) substrate may develop a Y-shaped Kekul\'e bond texture (Kekul\'e-Y), locking the momentum of its Dirac fermions with its valley degree of freedom. As a consequence, the valley degeneracy of its band structure is broken, generating an energy dispersion with two nested Dirac cones with different Fermi velocities. In this work, we investigate the dynamics of electronic wave packets in the Kekul\'e-Y superlattice. We show that, as a result of the valley-momentum coupling, a valley-driven oscillatory motion of the wave packets ( Zitterbewegung) could appear, but with a smaller frequency than the Zitterbewegung effect found pristine graphene. This makes Kekul\'e-Y graphene a compelling candidate for experimental observation of Zitterbewegung phenomenon in a two-dimensional system.
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