M. A. Torija scite author profile

Resistivity, Hall effect, and magnetoresistance are reported on a large set of semiconducting SrTiO 3−␦ single crystals doped n-type ͑by reduction or Nb substitution͒ over a broad range of carrier density ͑the 10 15 to mid 10 20 cm −3 range͒. Temperature-independent carrier densities, strongly temperature-dependent mobilities ͑up to 22 000 cm 2 V −1 s −1 at 4.2 K͒, and a remarkably low critical carrier density for the metal-insulator transition are observed, and interpreted in terms of the known quantum paraelectricity of the host. We argue that an unusual, high mobility, low density, metallic state is thus established at carrier densities at least as low as 8.5ϫ 10 15 cm −3 , in contrast to some prior conclusions. At low temperatures, the temperature dependence of the mobility and resistivity exhibit a nonmonotonic carrier density dependence and an abrupt change in character near 2 ϫ 10 16 cm −3 , indicating a distinct crossover in conduction mechanism, perhaps associated with a transition from impurity-band to conduction-band transport. The results provide a simple framework for the understanding of the global transport behavior of doped SrTiO 3 . Finally, it is proposed that the large residual resistivity ratios ͑Ͼ3000͒, and large, temperature independent, Hall coefficients ͑Ͼ1700 cm 3 C −1 ͒, demonstrate considerable potential for high-sensitivity resistive thermometry and Hall sensing applications.

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Lattice mismatch accommodation via oxygen vacancy ordering in epitaxial La0.5Sr0.5CoO3-δ thin films

Gàzquez

Bose

Sharma

et al. 2013

129

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The properties of complex oxide films depend sensitively on epitaxial strain. This strain affects bond lengths and angles, and defect types and densities, thus impacting physical properties. In this work we perform detailed characterization of depth-dependent strain in epitaxial La0.5Sr0.5CoO3-δ (LSCO) films on SrTiO3(001), SrTiO3(110), and LaAlO3(001) substrates, combining high resolution x-ray diffraction and scanning transmission electron microscopy, in addition to geometric phase analysis. We elucidate a fundamental link between strain state and O vacancy ordering in LSCO films, where lattice mismatch and crystallographic orientation can be used to manipulate the modulation vector of the long-range vacancy order, thus providing a new approach to tailor the properties of such films.

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Atomic-Resolution Imaging of Spin-State Superlattices in Nanopockets within Cobaltite Thin Films

et al. 2011

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Certain cobalt oxides are known to exhibit ordered Co spin states, as determined from macroscopic techniques. Here we report real-space atomic-resolution imaging of Co spin-state ordering in nanopockets of La(0.5)Sr(0.5)CoO(3-δ) thin films. Unlike the bulk material, where no Co spin-state ordering is found, thin films present a strain-induced domain structure due to oxygen vacancy ordering, inside of which some nanometer sized domains show high-spin Co ions in the planes containing O vacancies and low-spin Co ions in the stoichiometric planes. First-principles calculations provide support for this interpretation.

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Non-Griffiths-like clustered phase above the Curie temperature of the doped perovskite cobaltiteLa1−xSrxCoO3
He
¹
,
Torija
²
,
Wu
³

et al. 2007
Phys. Rev. B
123
14
87
2
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The existence of preformed clusters above the Curie temperature of the doped perovskite manganites is well established and, in many cases, conforms to the expectations for a Griffiths phase. We show here that the canonical perovskite cobaltite ͑La 1−x Sr x CoO 3 ͒ also exhibits a clustered state above the Curie point in the ferromagnetic phase. The formation of magnetic clusters at a well-defined temperature ͑T * ͒ is revealed in the small-angle neutron scattering and dc susceptibility. Remarkably, the characteristics of this clustered state appear quite unlike those of a Griffiths phase; the deviation from Curie-Weiss behavior is opposite to expectations and is field independent, while T * does not correspond to the undiluted Curie temperature. These results demonstrate that, although the Griffiths model may apply to many systems with quenched disorder, it is not universally applicable to randomly doped transition metal oxides.

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Chemically Driven Nanoscopic Magnetic Phase Separation at the SrTiO₃(001)/La_1‐xSr_xCoO₃ Interface

et al. 2011

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M. A. Torija

Electronic transport in dopedSrTiO3: Conduction mechanisms and potential applications

Lattice mismatch accommodation via oxygen vacancy ordering in epitaxial La0.5Sr0.5CoO3-δ thin films

Atomic-Resolution Imaging of Spin-State Superlattices in Nanopockets within Cobaltite Thin Films

Non-Griffiths-like clustered phase above the Curie temperature of the doped perovskite cobaltiteLa1−xSrxCoO3
He
¹
,
Torija
²
,
Wu
³

et al. 2007
Phys. Rev. B
123
14
87
2
View full text Add to dashboard Cite

Chemically Driven Nanoscopic Magnetic Phase Separation at the SrTiO₃(001)/La_1‐xSr_xCoO₃ Interface

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M. A. Torija

Electronic transport in dopedSrTiO3: Conduction mechanisms and potential applications

Lattice mismatch accommodation via oxygen vacancy ordering in epitaxial La0.5Sr0.5CoO3-δ thin films

Atomic-Resolution Imaging of Spin-State Superlattices in Nanopockets within Cobaltite Thin Films

Non-Griffiths-like clustered phase above the Curie temperature of the doped perovskite cobaltiteLa1−xSrxCoO3He1, Torija2, Wu3 et al. 2007Phys. Rev. B12314872View full textAdd to dashboardCite

Chemically Driven Nanoscopic Magnetic Phase Separation at the SrTiO3(001)/La1‐xSrxCoO3 Interface

Contact Info

Product

Resources

About

Non-Griffiths-like clustered phase above the Curie temperature of the doped perovskite cobaltiteLa1−xSrxCoO3
He
¹
,
Torija
²
,
Wu
³

et al. 2007
Phys. Rev. B
123
14
87
2
View full text Add to dashboard Cite

Chemically Driven Nanoscopic Magnetic Phase Separation at the SrTiO₃(001)/La_1‐xSr_xCoO₃ Interface