Pulsed thermal annealing above TN combined with a sub-millitesla field enables full, reproducible switching of the chiral antiferromagnetic octupole order in Mn3Sn single crystals.
& Higo, T
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A reduced Fokker-Planck model for octupole dynamics in Mn3Sn accurately reproduces switching behavior and computes ultra-low error probabilities in field-driven thermal switching.
Graphene transport in a NiI2 heterostructure exhibits magnetic-state-dependent anisotropic low-field magnetoresistance peaks absent in controls and suppressed above the NiI2 transition temperature.
citing papers explorer
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Pulsed thermal annealing enables switching of chiral antiferromagnetic order with a sub-millitesla field in Mn$_3$Sn
Pulsed thermal annealing above TN combined with a sub-millitesla field enables full, reproducible switching of the chiral antiferromagnetic octupole order in Mn3Sn single crystals.
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Fokker--Planck framework for stochastic octupole moment dynamics in chiral antiferromagnet Mn3Sn
A reduced Fokker-Planck model for octupole dynamics in Mn3Sn accurately reproduces switching behavior and computes ultra-low error probabilities in field-driven thermal switching.
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Interfacial Magnetotransport in a NiI$_2$/Graphene Heterostructure
Graphene transport in a NiI2 heterostructure exhibits magnetic-state-dependent anisotropic low-field magnetoresistance peaks absent in controls and suppressed above the NiI2 transition temperature.