A. Yamakage, K. -I. Imura, J. Cayssol, Y. Kuramoto
Published 2009-06-04, updated 2009-09-04Version 2
A graphene $pn$ junction is studied theoretically in the presence of both intrinsic and Rashba spin-orbit couplings. We show that a crossover from perfect reflection to perfect transmission is achieved at normal incidence by tuning the perpendicular electric field. By further studying angular dependent transmission, we demonstrate that perfect reflection at normal incidence can be clearly distinguished from trivial band gap effects. We also investigate how spin-orbit effects modify the conductance and the Fano factor associated with a potential step in both $nn$ and $np$ cases.
Comments: 6 pages, 5 figures, conductance and Fano factor plots added
Journal: EPL, 87 (2009) 47005
Spin-orbit effects at chiral surfaces
Resonant reflection of interacting electrons from an impurity in a quantum wire: interplay of Zeeman and spin-orbit effects
Twisted-light-induced intersubband transitions in quantum wells at normal incidence
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