Insulating ferromagnetic LaCoO_(3−δ) films: a phase induced by ordering of oxygen vacancies
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2014
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Amercian Physical Society
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Biškup, N., Salafranca, J., Mehta, V., Oxley, M. P., Suzuki, Y., Pennycook, S. J., ... & Varela, M. (2014). Insulating ferromagnetic LaCoO 3− δ films: A phase induced by ordering of oxygen vacancies. Physical Review Letters, 112(8), 087202.
Abstract
The origin of ferromagnetism in strained epitaxial LaCoO_(3) films has been a long-standing mystery. Here, we combine atomically resolved Z-contrast imaging, electron-energy-loss spectroscopy, and density-functional calculations to demonstrate that, in epitaxial LaCoO_(3) films, oxygen-vacancy superstructures release strain, control the film’s electronic properties, and produce the observed ferromagnetism via the excess electrons in the Co d states. Although oxygen vacancies typically dope a material n-type, we find that ordered vacancies induce Peierls-like minigaps which, combined with strain relaxation, trigger a nonlinear rupture of the energy bands, resulting in insulating behavior.