g+ig topological superconductivity in the 30o-twisted bilayer graphene

Abstract

Based on our revised perturbational-band theory, we study possible pairing states driven by interaction in the electron-doped quasicrystal 30-twisted bilayer graphene. Our mean-field study on the related t-J model predicts that, the beneath-van-Hove and beyond-van-Hove low doping regimes are covered by the chiral d+id and g+ig topological superconductivities (TSCs) respectively. The g+ig-TSC possesses a pairing angular momentum 4, and hence following each effective C12- rotation by φ=nπ/6, the pairing phase changes 4φ. This intriguing TSC is novel, as it belongs to a special 2D E4- irreducible representation of the effective D12 point group unique to this quasicystal and absent on periodic lattices. The Ginzburg-Landau theory suggested that the g+ig- TSC originates from the Josephson coupling between the d+id pairings on the two mono-layers.

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