Strain-induced quantum Hall phenomena of excitons in graphene

Author:

Berman Oleg L.,Kezerashvili Roman Ya.,Lozovik Yurii E.,Ziegler Klaus G.

Abstract

AbstractWe study direct and indirect pseudomagnetoexcitons, formed by an electron and a hole in the layers of gapped graphene under strain-induced gauge pseudomagnetic field. Since the strain-induced pseudomagnetic field acts on electrons and holes the same way, it occurs that the properties of single pseudomagnetoexcitons, their collective effects and phase diagram are cardinally different from those of magnetoexcitons in a real magnetic field. We have derived wave functions and energy spectrum of direct in a monolayer and indirect pseudomagnetoexcitons in a double layer of gapped graphene. The quantum Hall effect for direct and indirect excitons was predicted in the monolayers and double layers of gapped graphene under strain-induced gauge pseudomagnetic field, correspondingly.

Funder

Army Research Office

PCS CUNY

Russian Foundation for Basic Research

Basic Research Program at the National Research University HSE

The Julian Schwinger Foundation;

Publisher

Springer Science and Business Media LLC

Subject

Multidisciplinary

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