Hideo Soeda scite author profile

All the iron-based superconductors identified to date share a square lattice composed of Fe atoms as a common feature, despite having different crystal structures. In copper-based materials, the superconducting phase emerges not only in square lattice structures but also in ladder structures. Yet iron-based superconductors without a square lattice motif have not been found despite being actively sought out. Here, we report the discovery of pressure-induced superconductivity in the iron-based spin-ladder material BaFe 2 S 3 , a Mott insulator with striped-type magnetic ordering below ~120 K. On the application of pressure this compound exhibits a metal-insulator transition at about 11 GPa, followed by the appearance of superconductivity below T c = 14 K, right after the onset of the metallic phase. Our findings indicate that iron-based ladder compounds represent promising material platforms, in particular for studying the fundamentals of iron-based superconductivity.The discovery of iron-based superconductors had a significant impact on condensed matter physics and led to extensive study of the interplay between crystal structure, magnetism and superconductivity 1 . All the iron-based superconducting materials discovered to date share the same structural motif: a two-dimensional square lattice formed by edge-shared FeX 4 tetrahedra (X = Se, P and As). The Fe atoms are nominally divalent in most of the parent materials. These parent compounds undergo a magnetic transition at low temperatures, typically exhibiting striped-type ordering.Superconductivity appears when the magnetic order is fully suppressed by the application of pressure or by the addition of doping carriers through chemical Purpose of this studyThe application of pressure is often a useful means of changing the electronic structure of a compound so as to induce a metallic state without simultaneously introducing any degree of disorder 17 . In this study, we investigated in detail the magnetic properties of a sulphur-analogue of the Fe-based ladder materials, BaFe 2 S 3 (space group: orthorhombic, Cmcm) 18,19 , and undertook experimental trials in which this compound was subjected to high pressures to obtain the metallic state. The electronic properties of this material depend on the manner in which the samples are synthesized, and thus we present data for sample 1 describing magnetic properties, and data for a range of samples 1 to 6 describing high-pressure effects. The details of the sample preparation process are given in the Method section. Electronic properties under ambient pressureFigure 2a displays the temperature dependence of the electrical resistivity (ρ) of BaFe 2 S 3 along the leg direction under ambient pressure. The observed insulating behaviour, which occurs despite the expected metallic behaviour in an unfilled 3d manifold, is caused by the Coulomb repulsion between Fe 3d electrons, which becomes prominent in a quasi-one-dimensional ladder structure. Figure 2b shows the magnetic susceptibility (χ) at 5 T along the three orthorhombic...

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Pressure-Induced Enhancement of Superconductivity and Structural Transition in BiS₂-Layered LaO₁₋_xF_xBiS₂

Tomita

et al. 2014

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Superconductivity at 52 K in hydrogen-substituted LaFeAsO1-xHx under high pressure

Takahashi

Soeda

Nukii

et al. 2015

Sci Rep

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Growth Effects on the Auditory Threshold of Red Sea Bream.

Iwashita¹,

Sakamoto²,

Kojima³

et al. 1999

NIPPON SUISAN GAKKAISHI

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Studies on Echolocation of Porpoises Taken in Salmon Gillnet Fisheries

Hatakeyama

Soeda

1990

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Hideo Soeda

Pressure-induced superconductivity in the iron-based ladder material BaFe2S3

Pressure-Induced Enhancement of Superconductivity and Structural Transition in BiS₂-Layered LaO₁₋_xF_xBiS₂

Superconductivity at 52 K in hydrogen-substituted LaFeAsO1-xHx under high pressure

Growth Effects on the Auditory Threshold of Red Sea Bream.

Studies on Echolocation of Porpoises Taken in Salmon Gillnet Fisheries

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Hideo Soeda

Pressure-induced superconductivity in the iron-based ladder material BaFe2S3

Pressure-Induced Enhancement of Superconductivity and Structural Transition in BiS2-Layered LaO1−xFxBiS2

Superconductivity at 52 K in hydrogen-substituted LaFeAsO1-xHx under high pressure

Growth Effects on the Auditory Threshold of Red Sea Bream.

Studies on Echolocation of Porpoises Taken in Salmon Gillnet Fisheries

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Product

Resources

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Pressure-Induced Enhancement of Superconductivity and Structural Transition in BiS₂-Layered LaO₁₋_xF_xBiS₂