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W3215680822 abstract "We study the twisted Hubbard model of a cuprate bilayer at a fixed twist angle $ensuremath{theta}=53.{13}^{ensuremath{circ}}$ and as a function of doping, using the variational cluster approximation, a method that treats short-range dynamical correlations exactly. At intermediate interlayer tunneling, we observe a sudden change of the relative sign of the $d$-wave order parameters of two layers between the underdoped and overdoped regimes. At strong interlayer tunneling, we observe a clear time-reversal symmetry breaking phase near optimal doping, in which the relative phase of the two layers changes continuously from 0 to $ensuremath{pi}$. However, this phase has trivial topology. We also apply a cluster extension of dynamical mean field theory to the same problem, but fail to detect a time-reversal breaking phase with that method, probably owing to the very small energy difference between the different states involved." @default.
W3215680822 created "2021-12-06" @default.
W3215680822 creator A5003133489 @default.
W3215680822 creator A5073943257 @default.
W3215680822 date "2022-06-21" @default.
W3215680822 modified "2023-10-09" @default.
W3215680822 title "Doping phase diagram of a Hubbard model for twisted bilayer cuprates" @default.
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W3215680822 doi "https://doi.org/10.1103/physrevb.105.245127" @default.
W3215680822 hasPublicationYear "2022" @default.
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