2021
DOI: 10.1021/acs.jpclett.1c01020
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Magnetic-Field-Driven Electron Dynamics in Graphene

Abstract: Graphene exhibits unique optoelectronic properties originating from the band structure at the Dirac points. It is an ideal model structure to study the electronic and optical properties under the influence of the applied magnetic field. In graphene, electric field, laser pulse, and voltage can create electron dynamics which is influenced by momentum dispersion. However, computational modeling of momentum-influenced electron dynamics under the applied magnetic field remains challenging. Here, we perform computa… Show more

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