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      Anderson localization in metamaterials and other complex media (Review Article)

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          Optical negative-index metamaterials

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            Weak-localization magnetoresistance and valley symmetry in graphene.

            Because of the chiral nature of electrons in a monolayer of graphite (graphene) one can expect weak antilocalization and a positive weak-field magnetoresistance in it. However, trigonal warping (which breaks p-->-p symmetry of the Fermi line in each valley) suppresses antilocalization, while intervalley scattering due to atomically sharp scatterers in a realistic graphene sheet or by edges in a narrow wire tends to restore conventional negative magnetoresistance. We show this by evaluating the dependence of the magnetoresistance of graphene on relaxation rates associated with various possible ways of breaking a "hidden" valley symmetry of the system.
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              Colloquium: Andreev reflection and Klein tunneling in graphene

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                Author and article information

                Journal
                Low Temperature Physics
                Low Temperature Physics
                AIP Publishing
                1063-777X
                1090-6517
                July 2012
                July 2012
                : 38
                : 7
                : 570-602
                Article
                10.1063/1.4736617
                62e07673-9016-4758-851c-3df488a9ffb9
                © 2012
                History

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