YCl requires a multi-orbital description for its dice lattice flat band, predicting ferromagnetic ground state and tunable correlated QAH phases absent in single-orbital models.
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Magnetic instabilities in generic two-orbital systems are governed by the full interplay of the bare susceptibility tensor and spin interaction matrix, not solely by the quantum geometry of a single-channel susceptibility.
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YCl Electride as a Multi-Orbital Correlated Topological Dice Lattice System
YCl requires a multi-orbital description for its dice lattice flat band, predicting ferromagnetic ground state and tunable correlated QAH phases absent in single-orbital models.
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Reevaluating Quantum Geometric Criteria for Itinerant Magnetic Instabilities
Magnetic instabilities in generic two-orbital systems are governed by the full interplay of the bare susceptibility tensor and spin interaction matrix, not solely by the quantum geometry of a single-channel susceptibility.