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W1488690227 abstract "It is well established that some kinds of lattice deformations in graphene monolayer, which change electron hopping in the sublattice and affect in-plane motion of electrons, may induce out-of-plane pseudomagnetic fields as large as 100 T. Here, we demonstrate that stacking misorientation in graphene bilayers mimics the effect of huge in-plane pseudomagnetic fields greater than 1000 T on the interlayer hopping of electrons. As well as addressing the similarity between the effect of in-plane pseudomagnetic fields and the twisting on the electronic band structure of the Bernal graphene bilayer, we point out that the in-plane magnetic fields (or twisting) could modify the low-energy pseudospin texture of the graphene bilayer (the pseudospin winding number is reduced from 2 to 1), thereby changing the chiralities of quasiparticles from those of spin 1 to those of spin 1/2. Our results illustrate the possibility of controllably manipulating electronic properties of Bernal graphene bilayer by introducing the in-plane magnetic field or twisting." @default.
W1488690227 created "2016-06-24" @default.
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W1488690227 date "2014-03-14" @default.
W1488690227 modified "2023-10-13" @default.
W1488690227 title "Creating in-plane pseudomagnetic fields in excess of 1000 T by misoriented stacking in a graphene bilayer" @default.
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W1488690227 doi "https://doi.org/10.1103/physrevb.89.125418" @default.
W1488690227 hasPublicationYear "2014" @default.
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