Ultrafast optical excitation in WS2/CGT heterostructures generates opposite-sign magnetic torque via interfacial charge transfer that alters perpendicular magnetic anisotropy.
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Lattice transformation during the magnetostructural phase transition dominates laser generation of tunable GHz quasi-Rayleigh SAWs in FeRh films, with amplitude controllable by proximity to the transition temperature.
Exact diagonalization on small clusters confirms short-time magnetization switching from time-dependent Schwinger boson mean-field theory in quantum antiferromagnets with 12.5 percent deviation.
citing papers explorer
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Ultrafast Light-Induced Magnetoelectric Effect in van der Waals Magnetic Semiconductor Heterostructures
Ultrafast optical excitation in WS2/CGT heterostructures generates opposite-sign magnetic torque via interfacial charge transfer that alters perpendicular magnetic anisotropy.
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Switching magnetization of quantum antiferromagnets: Schwinger boson mean-field theory compared to exact diagonalization
Exact diagonalization on small clusters confirms short-time magnetization switching from time-dependent Schwinger boson mean-field theory in quantum antiferromagnets with 12.5 percent deviation.