Nonlinear IV curves in twisted bilayer graphene
ORAL
Abstract
Owing to the flatness of the reconstructed minibands, kinetic energy in twisted bilayer graphene is quenched. Recently, non-linear current-voltage (I-V) characteristics and sharp peaks in differential resistance are observed in graphene-BN superlattices and twisted bilayer graphene away from magic angle[1] at moderate current density, which arise from the Schwinger pair production mechanism in the presence of reduced Fermi velocity. Here, by tuning twisted bilayer graphene near magic angle, we investigate the possibility of further reducing Fermi velocity and the evolution of nonlinear IV curves with strongly correlated behavior turned on.
[1] A. Berdyugin et al. arXiv:2106.12609 [cond-mat.other].
[1] A. Berdyugin et al. arXiv:2106.12609 [cond-mat.other].
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Presenters
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Haidong Tian
Ohio State University, The Ohio State University
Authors
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Haidong Tian
Ohio State University, The Ohio State University
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Shi Che
Ohio State Univ - Columbus
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Fan Zhang
UT Dallas, University of Texas at Dallas
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Marc Bockrath
Ohio State University
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Chun Ning Lau
Ohio State Univ - Columbus, The Ohio State University