S. E. Lofland scite author profile

We report on the coupling between ferroelectric and magnetic order parameters in a nanostructured BaTiO3-CoFe2O4 ferroelectromagnet. This facilitates the interconversion of energies stored in electric and magnetic fields and plays an important role in many devices, including transducers, field sensors, etc. Such nanostructures were deposited on single-crystal SrTiO3 (001) substrates by pulsed laser deposition from a single Ba-Ti-Co-Fe-oxide target. The films are epitaxial in-plane as well as out-of-plane with self-assembled hexagonal arrays of CoFe2O4 nanopillars embedded in a BaTiO3 matrix. The CoFe2O4 nanopillars have uniform size and average spacing of 20 to 30 nanometers. Temperature-dependent magnetic measurements illustrate the coupling between the two order parameters, which is manifested as a change in magnetization at the ferroelectric Curie temperature. Thermodynamic analyses show that the magnetoelectric coupling in such a nanostructure can be understood on the basis of the strong elastic interactions between the two phases.

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On the origin of high-temperature ferromagnetism in the low-temperature-processed Mn–Zn–O system

Kundaliya¹,

Ogale²,

Lofland³

et al. 2004

Nature Mater

468

287

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The recent discovery of ferromagnetism above room temperature in low-temperature-processed MnO(2)-ZnO has generated significant interest. Using suitably designed bulk and thin-film studies, we demonstrate that the ferromagnetism in this system originates in a metastable phase rather than by carrier-induced interaction between separated Mn atoms in ZnO. The ferromagnetism persists up to approximately 980 K, and further heating transforms the metastable phase and kills the ferromagnetism. By studying the interface diffusion and reaction between thin-film bilayers of Mn and Zn oxides, we show that a uniform solution of Mn in ZnO does not form under low-temperature processing. Instead, a metastable ferromagnetic phase develops by Zn diffusion into the Mn oxide. Direct low-temperature film growth of Zn-incorporated Mn oxide by pulsed laser deposition shows ferromagnetism at low Zn concentration for an optimum oxygen growth pressure. Our results strongly suggest that the observed ferromagnetic phase is oxygen-vacancy-stabilized Mn(2-x)Zn(x)O(3-delta.).

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High Temperature Ferromagnetism with a Giant Magnetic Moment in Transparent Co-dopedSnO2−δ

et al. 2003

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Occurrence of room temperature ferromagnetism is demonstrated in pulsed laser deposited thin films of Sn 1-x Co x O 2-δ (x<0.3). Interestingly, films of Sn 0.95 Co 0.05 O 2-δ grown on R-plane sapphire not only exhibit ferromagnetism with a Curie temperature close to 650 K, but also a giant magnetic moment of 7 ± 0.5 µ B /Co, not yet reported in any diluted magnetic semiconductor system. The films are semiconducting and optically highly transparent.

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An investigation of structural, magnetic and dielectric properties of R2NiMnO6 (R=rare earth, Y)

Booth

Fillman

Whitaker

et al. 2009

Materials Research Bulletin

193

181

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Identification of novel compositions of ferromagnetic shape-memory alloys using composition spreads

et al. 2003

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Exploration of new ferroic (ferroelectric, ferromagnetic or ferroelastic) materials continues to be a central theme in condensed matter physics and to drive advances in key areas of technology. Here, using thin-film composition spreads, we have mapped the functional phase diagram of the Ni-Mn-Ga system whose Heusler composition Ni(2)MnGa is a well known ferromagnetic shape-memory alloy. A characterization technique that allows detection of martensitic transitions by visual inspection was combined with quantitative magnetization mapping using scanning SQUID (superconducting quantum interference device) microscopy. We find that a large, previously unexplored region outside the Heusler composition contains reversible martensites that are also ferromagnetic. A clear relationship between magnetization and the martensitic transition temperature is observed, revealing a strong thermodynamical coupling between magnetism and martensitic instability across a large fraction of the phase diagram.

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S. E. Lofland

Multiferroic BaTiO ₃ -CoFe ₂ O ₄ Nanostructures

On the origin of high-temperature ferromagnetism in the low-temperature-processed Mn–Zn–O system

High Temperature Ferromagnetism with a Giant Magnetic Moment in Transparent Co-dopedSnO2−δ

An investigation of structural, magnetic and dielectric properties of R2NiMnO6 (R=rare earth, Y)

Identification of novel compositions of ferromagnetic shape-memory alloys using composition spreads

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S. E. Lofland

Multiferroic BaTiO 3 -CoFe 2 O 4 Nanostructures

On the origin of high-temperature ferromagnetism in the low-temperature-processed Mn–Zn–O system

High Temperature Ferromagnetism with a Giant Magnetic Moment in Transparent Co-dopedSnO2−δ

An investigation of structural, magnetic and dielectric properties of R2NiMnO6 (R=rare earth, Y)

Identification of novel compositions of ferromagnetic shape-memory alloys using composition spreads

Contact Info

Product

Resources

About

Multiferroic BaTiO ₃ -CoFe ₂ O ₄ Nanostructures