Quantum Monte Carlo Calculation of the Binding Energy of Bilayer Graphene

E. Mostaani; N. D. Drummond; V. I. Fal'Ko

doi:10.1103/PhysRevLett.115.115501

Quantum Monte Carlo Calculation of the Binding Energy of Bilayer Graphene

E. Mostaani, N. D. Drummond, V. I. Fal'Ko

Lancaster University

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Abstract

We report diffusion quantum Monte Carlo calculations of the interlayer binding energy of bilayer graphene. We find the binding energies of the AA-and AB-stacked structures at the equilibrium separation to be 11.5(9) and 17.7(9)meV/atom, respectively. The out-of-plane zone-center optical phonon frequency predicted by our binding-energy curve is consistent with available experimental results. As well as assisting the modeling of interactions between graphene layers, our results will facilitate the development of van der Waals exchange-correlation functionals for density functional theory calculations.

Original language	English
Article number	115501
Journal	Physical Review Letters
Volume	115
Issue number	11
DOIs	https://doi.org/10.1103/PhysRevLett.115.115501
Publication status	Published - 10 Sept 2015

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National Graphene Institute

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10.1103/PhysRevLett.115.115501

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abstract = "We report diffusion quantum Monte Carlo calculations of the interlayer binding energy of bilayer graphene. We find the binding energies of the AA-and AB-stacked structures at the equilibrium separation to be 11.5(9) and 17.7(9)meV/atom, respectively. The out-of-plane zone-center optical phonon frequency predicted by our binding-energy curve is consistent with available experimental results. As well as assisting the modeling of interactions between graphene layers, our results will facilitate the development of van der Waals exchange-correlation functionals for density functional theory calculations.",

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AB - We report diffusion quantum Monte Carlo calculations of the interlayer binding energy of bilayer graphene. We find the binding energies of the AA-and AB-stacked structures at the equilibrium separation to be 11.5(9) and 17.7(9)meV/atom, respectively. The out-of-plane zone-center optical phonon frequency predicted by our binding-energy curve is consistent with available experimental results. As well as assisting the modeling of interactions between graphene layers, our results will facilitate the development of van der Waals exchange-correlation functionals for density functional theory calculations.

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Quantum Monte Carlo Calculation of the Binding Energy of Bilayer Graphene

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