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Klein Tunneling and Berry Phase $π$ in Bilayer Graphene with a Band Gap (1103.3331v2)

Published 17 Mar 2011 in cond-mat.mes-hall and cond-mat.mtrl-sci

Abstract: Klein tunneling in gapless bilayer graphene, perfect reflection of electrons injecting normal to a pn junction, is expected to disappear in the presence of energy band gap induced by external gates. We theoretically show that the Klein effect still exists in gapped bilayer graphene, provided that the gaps in the n and p regions are balanced such that the polarization of electron pseudospin has the same normal component to the bilayer plane in the regions. We attribute the Klein effect to Berry phase $\pi$ (rather than the conventional value $2 \pi$ of bilayer graphene) and to electron-hole and time-reversal symmetries. The Klein effect and the Berry phase $\pi$ can be identified in an electronic Veselago lens, an important component of graphene-based electron optics.

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