Van hove singularities and excitonic effects in the optical conductivity of twisted bilayer graphene

Robin W. Havener; Yufeng Liang; Lola Brown; Li Yang; Jiwoong Park

doi:10.1021/nl500823k

Van hove singularities and excitonic effects in the optical conductivity of twisted bilayer graphene

Robin W. Havener, Yufeng Liang, Lola Brown, Li Yang, Jiwoong Park

Department of Physics

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142 Scopus citations

Abstract

We report a systematic study of the optical conductivity of twisted bilayer graphene (tBLG) across a large energy range (1.2-5.6 eV) for various twist angles, combined with first-principles calculations. At previously unexplored high energies, our data show signatures of multiple van Hove singularities (vHSs) in the tBLG bands as well as the nonlinearity of the single layer graphene bands and their electron-hole asymmetry. Our data also suggest that excitonic effects play a vital role in the optical spectra of tBLG. Including electron-hole interactions in first-principles calculations is essential to reproduce the shape of the conductivity spectra, and we find evidence of coherent interactions between the states associated with the multiple vHSs in tBLG.

Original language	English
Pages (from-to)	3353-3357
Number of pages	5
Journal	Nano Letters
Volume	14
Issue number	6
DOIs	https://doi.org/10.1021/nl500823k
State	Published - Jun 11 2014

Keywords

GW-BSE
Graphene
optical spectroscopy
twisted bilayer graphene

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10.1021/nl500823k

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title = "Van hove singularities and excitonic effects in the optical conductivity of twisted bilayer graphene",

abstract = "We report a systematic study of the optical conductivity of twisted bilayer graphene (tBLG) across a large energy range (1.2-5.6 eV) for various twist angles, combined with first-principles calculations. At previously unexplored high energies, our data show signatures of multiple van Hove singularities (vHSs) in the tBLG bands as well as the nonlinearity of the single layer graphene bands and their electron-hole asymmetry. Our data also suggest that excitonic effects play a vital role in the optical spectra of tBLG. Including electron-hole interactions in first-principles calculations is essential to reproduce the shape of the conductivity spectra, and we find evidence of coherent interactions between the states associated with the multiple vHSs in tBLG.",

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T1 - Van hove singularities and excitonic effects in the optical conductivity of twisted bilayer graphene

AU - Havener, Robin W.

AU - Liang, Yufeng

AU - Brown, Lola

AU - Yang, Li

AU - Park, Jiwoong

PY - 2014/6/11

Y1 - 2014/6/11

N2 - We report a systematic study of the optical conductivity of twisted bilayer graphene (tBLG) across a large energy range (1.2-5.6 eV) for various twist angles, combined with first-principles calculations. At previously unexplored high energies, our data show signatures of multiple van Hove singularities (vHSs) in the tBLG bands as well as the nonlinearity of the single layer graphene bands and their electron-hole asymmetry. Our data also suggest that excitonic effects play a vital role in the optical spectra of tBLG. Including electron-hole interactions in first-principles calculations is essential to reproduce the shape of the conductivity spectra, and we find evidence of coherent interactions between the states associated with the multiple vHSs in tBLG.

AB - We report a systematic study of the optical conductivity of twisted bilayer graphene (tBLG) across a large energy range (1.2-5.6 eV) for various twist angles, combined with first-principles calculations. At previously unexplored high energies, our data show signatures of multiple van Hove singularities (vHSs) in the tBLG bands as well as the nonlinearity of the single layer graphene bands and their electron-hole asymmetry. Our data also suggest that excitonic effects play a vital role in the optical spectra of tBLG. Including electron-hole interactions in first-principles calculations is essential to reproduce the shape of the conductivity spectra, and we find evidence of coherent interactions between the states associated with the multiple vHSs in tBLG.

KW - GW-BSE

KW - Graphene

KW - optical spectroscopy

KW - twisted bilayer graphene

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U2 - 10.1021/nl500823k

DO - 10.1021/nl500823k

M3 - Article

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VL - 14

SP - 3353

EP - 3357

JO - Nano Letters

JF - Nano Letters

IS - 6

ER -

Van hove singularities and excitonic effects in the optical conductivity of twisted bilayer graphene

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