Antiferromagnetic chains with an odd number of spins are known to undergo a transition from an antiparallel to a spin-flop configuration when subjected to an increasing magnetic field. We show that in the presence of an anisotropy favoring alignment perpendicular to the field, the spin-flop state appears for both weak and strong fields, the antiparallel state appearing for intermediate fields. Both transitions are second order, the configuration varying continuously with the field intensity. Such reentrant transition is robust with respect to quantum fluctuations and it might be observed in different types of nanomagnets.
Reentrant spin-flop transition in nanomagnets
Paolo Politi;Ruggero Vaia
2014
Abstract
Antiferromagnetic chains with an odd number of spins are known to undergo a transition from an antiparallel to a spin-flop configuration when subjected to an increasing magnetic field. We show that in the presence of an anisotropy favoring alignment perpendicular to the field, the spin-flop state appears for both weak and strong fields, the antiparallel state appearing for intermediate fields. Both transitions are second order, the configuration varying continuously with the field intensity. Such reentrant transition is robust with respect to quantum fluctuations and it might be observed in different types of nanomagnets.| File | Dimensione | Formato | |
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