Berry phases in Coulomb drag of double-layer graphene system
Poster-In-person · Withdrawn
Abstract
Recent experiments suggest quantum interference effects in the Coulomb drag of double-layer graphene systems. By accounting for correlated interlayer impurity scattering under a weak magnetic field, our theoretical results reveal drag resistivities resembling those in weak (anti)localization. It is established that the quantum interference effect is most significant when the chemical potentials of the two graphene sheets match. The theory clarifies the roles of intra- and interlayer Berry phases in Coulomb drag in double-layer graphene systems and helps delineate the intra- and intervalley contributions. These insights are valuable for designing graphene-based electronic devices exploiting quantum effects.
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· 123Presenters
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Jianghui Pan
- Peking University