WKB Estimate of Bilayer Graphene's Magic Twist Angles

WKB Estimate of Bilayer Graphene's Magic Twist Angles

Graphene bilayers exhibit zero-energy flatbands at a discrete series of magic twist angles. In the absence of intrasublattice interlayer hopping, zero-energy states satisfy a Dirac equation with a non-Abelian SU(2) gauge potential that cannot be diagonalized globally. We develop a semiclassical WKB...

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Veröffentlicht in:Physical review letters 2021-01, Vol.126 (1), p.016404-016404, Article 016404
Hauptverfasser: Ren, Yafei, Gao, Qiang, MacDonald, A H, Niu, Qian
Format: Artikel
Sprache:eng
Schlagworte:
Airy function
Bilayers
Dirac equation
electronic structure
Graphene
Interlayers
MATERIALS SCIENCE
Plancks constant
topological materials
Wave functions
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Zusammenfassung:Graphene bilayers exhibit zero-energy flatbands at a discrete series of magic twist angles. In the absence of intrasublattice interlayer hopping, zero-energy states satisfy a Dirac equation with a non-Abelian SU(2) gauge potential that cannot be diagonalized globally. We develop a semiclassical WKB approximation scheme for this Dirac equation by introducing a dimensionless Planck's constant proportional to the twist angle, solving the linearized Dirac equation around AB and BA turning points, and connecting Airy function solutions via bulk WKB wave functions. We find zero-energy solutions at a discrete set of values of the dimensionless Planck's constant, which we obtain analytically. Our analytic flatband twist angles correspond closely to those determined numerically in previous work.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.126.016404