A driven-dissipative altermagnetic magnon bath generates an extended LLG equation with two spatially nonlocal anisotropic damping terms, one non-Markovian, for controlling classical spin dynamics in AMI/FI bilayers.
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DFT calculations reveal magnetic phase transitions with film thickness in freestanding LaVO3, recovering bulk C-AFM beyond four layers, with surface charge transfer inducing mixed magnetic states and hole doping producing ferromagnetism plus striped charge order.
citing papers explorer
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Engineering a driven-dissipative bath of altermagnetic quantum magnons for controlling classical dynamics of spins hosting spin waves, domain walls, or skyrmions
A driven-dissipative altermagnetic magnon bath generates an extended LLG equation with two spatially nonlocal anisotropic damping terms, one non-Markovian, for controlling classical spin dynamics in AMI/FI bilayers.
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Emergent magnetic and charge ordered phases in freestanding ultrathin \ce{LaVO3}
DFT calculations reveal magnetic phase transitions with film thickness in freestanding LaVO3, recovering bulk C-AFM beyond four layers, with surface charge transfer inducing mixed magnetic states and hole doping producing ferromagnetism plus striped charge order.