Data di Pubblicazione:
2019
Citazione:
Reversible Modification of Ferromagnetism through Electrically Controlled Morphology / G. Vinai, F. Motti, V. Bonanni, A.Y. Petrov, S. Benedetti, C. Rinaldi, M. Stella, D. Cassese, S. Prato, M. Cantoni, G. Rossi, G. Panaccione, A. Piero Torelli. - In: ADVANCED ELECTRONIC MATERIALS. - ISSN 2199-160X. - (2019 Apr). [Epub ahead of print]
Abstract:
Converse magnetoelectric coupling in artificial multiferroics is generally modeled through three possible mechanisms: charge transfer, strain mediated effects or ion migration. Here the role played by electrically controlled morphological modifications on the ferromagnetic response of a multiferroic heterostructure, specifically Fe x Mn 1− x ferromagnetic films on piezoferroelectric PMN-PT [001] substrates, is discussed. The substrates present, in correspondence to electrical switching, fully reversible morphological changes at the surface, to which correspond reproducible modifications of the ferromagnetic response of the Fe x Mn 1− x films. Topographic analysis by atomic force microscopy shows the formation of surface cracks (up to 100 nm in height) upon application of a sufficiently high positive electric field (up to 6 kV cm −1 ). The cracks disappear after application of negative electric field of the same magnitude. Correspondingly, in operando X-ray magnetic circular dichroic spectroscopy at Fe edge in Fe x Mn 1− x layers and micro-MOKE measurements show local variations in the intensity of the dichroic signal and in the magnetic anisotropy as a function of the electrically driven morphological state. This morphologic parameter, rarely explored in literature, directly affects the ferromagnetic response of the system. Its proof of electrically reversible modification of the magnetic response adds a new possibility in the design of electrically controlled magnetic devices.
Tipologia IRIS:
01 - Articolo su periodico
Keywords:
ferromagnetism at the interface; metal oxydes; field controlled ferromagnetism
Elenco autori:
G. Vinai, F. Motti, V. Bonanni, A.Y. Petrov, S. Benedetti, C. Rinaldi, M. Stella, D. Cassese, S. Prato, M. Cantoni, G. Rossi, G. Panaccione, A. Piero Torelli
Link alla scheda completa:
Progetto: