Dynamics of wave packets in two-dimensional crystals under external magnetic and electric fields: Vortices formation
H. N. Nazareno, P. E. de Brito, E. S. Rodrigues
TL;DR
This study investigates wave packet dynamics in 2D crystals under magnetic and electric fields, revealing a novel vortex formation and wave splitting phenomenon with quantum mechanical insights.
Contribution
It reports the first observation of wave function splitting and vortex formation in quantum wave packets under combined electromagnetic fields.
Findings
Wave packets split into multiple components and reconstruct over time.
Vortices form and propagate perpendicular to the electric field.
Wave dynamics exhibit complex behavior influenced by field parameters.
Abstract
In the present work we deal with the dynamics of wave packets in a two-dimensional crystal under the action of magnetic and electric fields. The magnetic field is perpendicular to the plane and the electric field is on the plane. In the simulations we considered a symmetric gauge for the vector potential while the initial wave packet was assumed to have a gaussian structure with given velocities. The parameters that control the kind of time evolution of the packets are: the width of the gaussian, its velocity, and, the intensity and direction of the electric field as well as the magnitude of the magnetic field. In order to characterize the kind of propagation we evaluated the mean-square displacement (MSD), the participation function and which is more important we were able to follow the wave at different times, which allowed us to see the time evolution of the centroid of the wave…
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