S. Bala Kumar, Jing Guoa
Published 2012-04-04Version 1
We study the effect of chiral-tunneling in Bernal and Rombhohedral stacked trilayer-graphene (3LG). Based on the chirality of the electronic bands, at the K-point, (Rombhohedral) Bernal-3LG exhibits 100% (50%) transparency across a heterojunction. Utilizing this property, we further investigate the effect of electron collimation in 3LG. Due to the difference in the Berry's phase, we show that, Rombhohedral-3LG is a better electron collimator, compared to monolayer and Bernal-bilayer graphene. Since, Bernal-3LG can be decomposed into two separate channels consisting of a monolayer and a modified Bernal-bilayer graphene; the Bernal-3LG is weaker electron collimator, compared to Rombhohedral-3LG.
Comments: APL, 2012; http://dx.doi.org/10.1063/1.3703758
Journal: Appl. Phys. Lett. 100, 163102 (2012)
Electronic Transport in Disordered Bilayer and Trilayer Graphene
Localized magnetic states in biased bilayer and trilayer graphene
Chiral tunneling through time-periodic potential in graphene
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