Author
Listed:
- Mohamed Oudah
(Graduate School of Science, Kyoto University)
- Atsutoshi Ikeda
(Graduate School of Science, Kyoto University)
- Jan Niklas Hausmann
(Graduate School of Science, Kyoto University
Faculty of Mathematics and Natural Sciences, Humboldt-Universität zu Berlin)
- Shingo Yonezawa
(Graduate School of Science, Kyoto University)
- Toshiyuki Fukumoto
(Graduate School of Engineering, Nagoya University)
- Shingo Kobayashi
(Graduate School of Engineering, Nagoya University
Institute for Advanced Research, Nagoya University)
- Masatoshi Sato
(Yukawa Institute for Theoretical Physics, Kyoto University)
- Yoshiteru Maeno
(Graduate School of Science, Kyoto University)
Abstract
Investigations of perovskite oxides triggered by the discovery of high-temperature and unconventional superconductors have had crucial roles in stimulating and guiding the development of modern condensed-matter physics. Antiperovskite oxides are charge-inverted counterpart materials to perovskite oxides, with unusual negative ionic states of a constituent metal. No superconductivity was reported among the antiperovskite oxides so far. Here we present the first superconducting antiperovskite oxide Sr3−xSnO with the transition temperature of around 5 K. Sr3SnO possesses Dirac points in its electronic structure, and we propose from theoretical analysis a possibility of a topological odd-parity superconductivity analogous to the superfluid 3He-B in moderately hole-doped Sr3−xSnO. We envision that this discovery of a new class of oxide superconductors will lead to a rapid progress in physics and chemistry of antiperovskite oxides consisting of unusual metallic anions.
Suggested Citation
Mohamed Oudah & Atsutoshi Ikeda & Jan Niklas Hausmann & Shingo Yonezawa & Toshiyuki Fukumoto & Shingo Kobayashi & Masatoshi Sato & Yoshiteru Maeno, 2016.
"Superconductivity in the antiperovskite Dirac-metal oxide Sr3−xSnO,"
Nature Communications, Nature, vol. 7(1), pages 1-6, December.
Handle:
RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms13617
DOI: 10.1038/ncomms13617
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