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Paper IPM / P / 11363

School of Physics

Title:

Electron-Electron Interactions in Decoupled Graphene Layers

Author(s):

1.	R.E.V. Profumo
2.	M . Polini
3.	R . Asgari
4.	R. Fazio
5.	A.H. MacDonald

Status:

Published

Journal:

Phys. Rev. B

Vol.:

Year:

2010

Pages:

085443

Supported by:

IPM

Abstract:

Multi-layer graphene on the carbon face of silicon carbide is an intriguing electronic system which typically consists of a stack of ten or more layers. Rotational stacking faults in this system dramatically reduce inter-layer coherence. In this article we report on the inuence of inter-layer interactions, which remain strong even when coherence is negligible, on the Fermi liquid properties of charged graphene layers. We find that inter-layer interactions increase the magnitudes of correlation energies and decrease quasiparticle velocities, even when remote-layer carrier densities are small, and that they lessen the inuence of exchange and correlation on the distribution of carriers across layers.

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“School of Physics”

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