Flat bands, Dirac cones, and higher-order band crossings in twisted multilayer graphene
classification
🧮 math-ph
cond-mat.mes-hallcond-mat.str-elmath.APmath.MPmath.SP
keywords
bandsbandflatgraphenearxivconescrossingsdirac
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For the chiral limit of two sheets of $n$-layer Bernal-stacked graphene established in the Physical Review Letters arXiv:2109.10325 and arXiv:2109.11514, we prove a trichotomy: depending on the twisting angle, we have either (1) generically, the band crossing of the first two bands is of order $n$; or (2) at a discrete set of magic angles, the first two bands are completely flat; or (3) for another discrete set of twisting parameters, the bands exhibit Dirac cones. This new mathematical discovery disproves the common belief in physics that such a twisted multilayer graphene model can only have higher order band crossings or flat bands, and it leads to a new type of topological phase transition.
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