DFT+DMFT reveals RuO2 sits near the paramagnetic-altermagnetic boundary and itinerant-localized crossover, making its magnetic state tunable by minimal strain due to dynamical correlations.
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Quantum DMFT framework combining Gaussian subspace state representation with compressed circuits for Green's functions, shown to converge in simulation and run on 8-qubit IBM hardware.
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Correlation-driven tunability of altermagnetism in RuO$_2$
DFT+DMFT reveals RuO2 sits near the paramagnetic-altermagnetic boundary and itinerant-localized crossover, making its magnetic state tunable by minimal strain due to dynamical correlations.