Maxim Trushin
Published 2011-12-17, updated 2012-05-25Version 2
This is a theoretical study of electron transport in gated bilayer graphene - a novel semiconducting material with a tunable band gap. It is shown that the which-layer pseudospin coherence enhances the subgap conductivity and facilitates the thermally activated transport. The mechanism proposed can also lead to the non-monotonic conductivity vs. temperature dependence at a band gap size of the order of 10 meV. The effect can be observed in gapped bilayer graphene sandwiched in boron nitride where the electron-hole puddles and flexural phonons are strongly suppressed.
Comments: 6 pages, 6 figures, revised, as published in EPL. To be displayed within Graphene Week 2012 Poster Session I
Journal: EPL 98 (2012) 47007
Strange effect of disorder on electron transport through a thin film
Electron transport through a quantum wire coupled with a mesoscopic ring
Models of electron transport in single layer graphene
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