Ghost-GA provides an efficient way to compute the magnetic phase diagram of the anisotropic triangular Hubbard model, matching DMFT closely and ruling out the 1D AF phase.
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Doping-induced in-gap states in 1D and quasi-1D Kitaev-Hubbard models mirror the spin excitation spectra, including Ising gaps, Jordan-Wigner branches, and Z2 vison gaps.
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Magnetic phases of the anisotropic triangular Hubbard model from the ghost-Gutzwiller approximation in the rotating spin-frame
Ghost-GA provides an efficient way to compute the magnetic phase diagram of the anisotropic triangular Hubbard model, matching DMFT closely and ruling out the 1D AF phase.
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Relationship between doping-induced in-gap states and spin excitations in Kitaev-Hubbard models
Doping-induced in-gap states in 1D and quasi-1D Kitaev-Hubbard models mirror the spin excitation spectra, including Ising gaps, Jordan-Wigner branches, and Z2 vison gaps.