Multiple superconducting gaps, anisotropic spin fluctuations and spin-orbit coupling in iron-pnictides

Jie Yang; Guo Qing Zheng

doi:10.1142/S0217984912300086

Multiple superconducting gaps, anisotropic spin fluctuations and spin-orbit coupling in iron-pnictides

Jie Yang, Guo Qing Zheng

Research output: Contribution to journal › Review article › peer-review

6 Citations (Scopus)

Abstract

This article reviews the NMR and NQR studies on iron-based high-temperature superconductors by the IOP/Okayama group. It was found that the electron pairs in the superconducting state are in the spin-singlet state with multiple fully-opened energy gaps. The antiferromagnetic spin fluctuations in the normal state are found to be closely correlated with the superconductivity. Also, the antiferromagnetic spin fluctuations are anisotropic in the spin space, which is different from the case in copper oxide superconductors. This anisotropy originates from the spin-orbit coupling and is an important reflection of the multiple-bands nature of this new class of superconductors.

Original language	English
Article number	1230008
Journal	Modern Physics Letters B
Volume	26
Issue number	15
DOIs	https://doi.org/10.1142/S0217984912300086
Publication status	Published - Jun 20 2012

Keywords

Cooper-pair symmetry
Iron-based high-T superconductor
multiple gap
nuclear magnetic resonance
spin fluctuations
spin-orbit coupling

ASJC Scopus subject areas

Statistical and Nonlinear Physics
Condensed Matter Physics

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title = "Multiple superconducting gaps, anisotropic spin fluctuations and spin-orbit coupling in iron-pnictides",

abstract = "This article reviews the NMR and NQR studies on iron-based high-temperature superconductors by the IOP/Okayama group. It was found that the electron pairs in the superconducting state are in the spin-singlet state with multiple fully-opened energy gaps. The antiferromagnetic spin fluctuations in the normal state are found to be closely correlated with the superconductivity. Also, the antiferromagnetic spin fluctuations are anisotropic in the spin space, which is different from the case in copper oxide superconductors. This anisotropy originates from the spin-orbit coupling and is an important reflection of the multiple-bands nature of this new class of superconductors.",

keywords = "Cooper-pair symmetry, Iron-based high-T superconductor, multiple gap, nuclear magnetic resonance, spin fluctuations, spin-orbit coupling",

author = "Jie Yang and Zheng, {Guo Qing}",

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AU - Yang, Jie

AU - Zheng, Guo Qing

N1 - Funding Information: This work was supported by the Ministry of Science and Technology of China (National Basic Research Program Nos. 2011CBA00109 and 2012CB821402).

PY - 2012/6/20

Y1 - 2012/6/20

N2 - This article reviews the NMR and NQR studies on iron-based high-temperature superconductors by the IOP/Okayama group. It was found that the electron pairs in the superconducting state are in the spin-singlet state with multiple fully-opened energy gaps. The antiferromagnetic spin fluctuations in the normal state are found to be closely correlated with the superconductivity. Also, the antiferromagnetic spin fluctuations are anisotropic in the spin space, which is different from the case in copper oxide superconductors. This anisotropy originates from the spin-orbit coupling and is an important reflection of the multiple-bands nature of this new class of superconductors.

AB - This article reviews the NMR and NQR studies on iron-based high-temperature superconductors by the IOP/Okayama group. It was found that the electron pairs in the superconducting state are in the spin-singlet state with multiple fully-opened energy gaps. The antiferromagnetic spin fluctuations in the normal state are found to be closely correlated with the superconductivity. Also, the antiferromagnetic spin fluctuations are anisotropic in the spin space, which is different from the case in copper oxide superconductors. This anisotropy originates from the spin-orbit coupling and is an important reflection of the multiple-bands nature of this new class of superconductors.

KW - Cooper-pair symmetry

KW - Iron-based high-T superconductor

KW - multiple gap

KW - nuclear magnetic resonance

KW - spin fluctuations

KW - spin-orbit coupling

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Multiple superconducting gaps, anisotropic spin fluctuations and spin-orbit coupling in iron-pnictides

Abstract

Keywords

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