In d-wave altermagnets, domain wall orientation controls whether altermagnetism changes the number, dispersion, degeneracy, and localization of magnon bound states, with static fields adding asymmetry and wave-vector limits.
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Direct QDM imaging shows that pinned uncompensated moments in FeRh preserve magnetic orientation across AFM-FM phase transitions, enabling AFM-based magnetic memory.
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Propagation and localization of spin excitations at altermagnetic domain walls
In d-wave altermagnets, domain wall orientation controls whether altermagnetism changes the number, dispersion, degeneracy, and localization of magnon bound states, with static fields adding asymmetry and wave-vector limits.
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Demonstrating magnetic memory in iron-rhodium structures using a quantum diamond microscope
Direct QDM imaging shows that pinned uncompensated moments in FeRh preserve magnetic orientation across AFM-FM phase transitions, enabling AFM-based magnetic memory.