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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Laser-generated GHz surface acoustic waves with tunable amplitude during the magnetostructural phase transition in FeRh thin films
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.
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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.