The local structure of the Ca0.9Pr0.1Fe2As2 superconductor as a function of temperature

E. Paris; T. Wakita; L. Simonelli; C. Marini; W. Olszewski; K. Terashima; F. Stramaglia; G. M. Pugliese; T. Mizokawa; S. Ioka; K. Kudo; M. Nohara; T. Yokoya; N. L. Saini

doi:10.1088/1361-6668/ab2792

The local structure of the Ca_0.9Pr_0.1Fe₂As₂ superconductor as a function of temperature

E. Paris, T. Wakita, L. Simonelli, C. Marini, W. Olszewski, K. Terashima, F. Stramaglia, G. M. Pugliese, T. Mizokawa, S. Ioka, K. Kudo, M. Nohara, T. Yokoya, N. L. Saini

School of Advanced Science and Engineering

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

We have studied the local structure of Ca_0.9Pr_0.1Fe₂As₂, showing filamentary superconductivity above 40 K, by a combined analysis of Fe K-edge and As K-edge extended X-ray absorption fine structure measurements. The experiments are performed as a function of temperature exploiting a single crystal sample and in-plane polarization of the X-ray beam to extract information on the directional displacements. The local structure of the FeAs layer is found to be consistent with a regular FeAs₄ tetrahedron containing negligible local disorder. Unlike other superconducting systems, we do not find any change in the atomic displacements across the superconducting transition temperature. The results are compatible with electron doping induced intrinsic superconductivity of optimized FeAs₄ local structure containing negligible disorder.

Original language	English
Article number	095001
Journal	Superconductor Science and Technology
Volume	32
Issue number	9
DOIs	https://doi.org/10.1088/1361-6668/ab2792
Publication status	Published - 2019 Jul 19

Keywords

Iron-based superconductivity
filamentary superconductivity
high transition temperature
local structure

ASJC Scopus subject areas

Ceramics and Composites
Condensed Matter Physics
Metals and Alloys
Electrical and Electronic Engineering
Materials Chemistry

Access to Document

10.1088/1361-6668/ab2792

Cite this

Paris, E., Wakita, T., Simonelli, L., Marini, C., Olszewski, W., Terashima, K., Stramaglia, F., Pugliese, G. M., Mizokawa, T., Ioka, S., Kudo, K., Nohara, M., Yokoya, T., & Saini, N. L. (2019). The local structure of the Ca_0.9Pr_0.1Fe₂As₂ superconductor as a function of temperature. Superconductor Science and Technology, 32(9), Article 095001. https://doi.org/10.1088/1361-6668/ab2792

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abstract = "We have studied the local structure of Ca0.9Pr0.1Fe2As2, showing filamentary superconductivity above 40 K, by a combined analysis of Fe K-edge and As K-edge extended X-ray absorption fine structure measurements. The experiments are performed as a function of temperature exploiting a single crystal sample and in-plane polarization of the X-ray beam to extract information on the directional displacements. The local structure of the FeAs layer is found to be consistent with a regular FeAs4 tetrahedron containing negligible local disorder. Unlike other superconducting systems, we do not find any change in the atomic displacements across the superconducting transition temperature. The results are compatible with electron doping induced intrinsic superconductivity of optimized FeAs4 local structure containing negligible disorder.",

keywords = "Iron-based superconductivity, filamentary superconductivity, high transition temperature, local structure",

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T1 - The local structure of the Ca0.9Pr0.1Fe2As2 superconductor as a function of temperature

AU - Paris, E.

AU - Wakita, T.

AU - Simonelli, L.

AU - Marini, C.

AU - Olszewski, W.

AU - Terashima, K.

AU - Stramaglia, F.

AU - Pugliese, G. M.

AU - Mizokawa, T.

AU - Ioka, S.

AU - Kudo, K.

AU - Nohara, M.

AU - Yokoya, T.

AU - Saini, N. L.

PY - 2019/7/19

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N2 - We have studied the local structure of Ca0.9Pr0.1Fe2As2, showing filamentary superconductivity above 40 K, by a combined analysis of Fe K-edge and As K-edge extended X-ray absorption fine structure measurements. The experiments are performed as a function of temperature exploiting a single crystal sample and in-plane polarization of the X-ray beam to extract information on the directional displacements. The local structure of the FeAs layer is found to be consistent with a regular FeAs4 tetrahedron containing negligible local disorder. Unlike other superconducting systems, we do not find any change in the atomic displacements across the superconducting transition temperature. The results are compatible with electron doping induced intrinsic superconductivity of optimized FeAs4 local structure containing negligible disorder.

AB - We have studied the local structure of Ca0.9Pr0.1Fe2As2, showing filamentary superconductivity above 40 K, by a combined analysis of Fe K-edge and As K-edge extended X-ray absorption fine structure measurements. The experiments are performed as a function of temperature exploiting a single crystal sample and in-plane polarization of the X-ray beam to extract information on the directional displacements. The local structure of the FeAs layer is found to be consistent with a regular FeAs4 tetrahedron containing negligible local disorder. Unlike other superconducting systems, we do not find any change in the atomic displacements across the superconducting transition temperature. The results are compatible with electron doping induced intrinsic superconductivity of optimized FeAs4 local structure containing negligible disorder.

KW - Iron-based superconductivity

KW - filamentary superconductivity

KW - high transition temperature

KW - local structure

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