Evidence of spin reorientation transition below 150 K from magnetic force microscopy in a ferromagnetic BiFeO3 thin film
Abstract
We investigated the magnetic transitions in BiFeO3 at low temperature (5-300 K) and observed nearly 90o rotation of magnetic domains (imaged by vertical magnetic force microscopy) across 150 K in an epitaxial thin film of thickness 36 nm. It offers a clear evidence of spin reorientation transition. It also corroborates the transition observed below 150 K in the zero-field-cooled and field-cooled magnetization versus temperature data. The field-driven 180o domain switching at room temperature, on the other hand, signifies presence of ferromagnetism. Since bulk antiferromagnetic BiFeO3 does not exhibit such a transition, this observation in ferromagnetic thin film of BiFeO3 indicates a radical effect because of epitaxial strain. Density functional theory based first-principles calculations too reveal that combined in- and out-of-plane epitaxial strain induces magnetic transition from G- to C-type structure in BiFeO3.
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