Superconducting properties of sulfur-doped iron selenide

Superconducting properties of sulfur-doped iron selenide

The recent discovery of high-temperature superconductivity in single-layer iron selenide has generated significant experimental interest for optimizing the superconducting properties of iron-based superconductors through the lattice modification. For simulating the similar effect by changing the che...

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Veröffentlicht in:Physical review. B, Condensed matter and materials physics Condensed matter and materials physics, 2015-04, Vol.91 (16), Article 165109
Hauptverfasser: Abdel-Hafiez, Mahmoud, Zhang, Yuan-Yuan, Cao, Zi-Yu, Duan, Chun-Gang, Karapetrov, G., Pudalov, V. M., Vlasenko, V. A., Sadakov, A. V., Knyazev, D. A., Romanova, T. A., Chareev, D. A., Volkova, O. S., Vasiliev, A. N., Chen, Xiao-Jia
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Anisotropy
Condensed matter
Critical field (superconductivity)
Iron
Mathematical models
Penetration depth
Specific heat
Superconductivity
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container_issue 16
container_start_page
container_title Physical review. B, Condensed matter and materials physics
container_volume 91
creator Abdel-Hafiez, Mahmoud
Zhang, Yuan-Yuan
Cao, Zi-Yu
Duan, Chun-Gang
Karapetrov, G.
Pudalov, V. M.
Vlasenko, V. A.
Sadakov, A. V.
Knyazev, D. A.
Romanova, T. A.
Chareev, D. A.
Volkova, O. S.
Vasiliev, A. N.
Chen, Xiao-Jia
description The recent discovery of high-temperature superconductivity in single-layer iron selenide has generated significant experimental interest for optimizing the superconducting properties of iron-based superconductors through the lattice modification. For simulating the similar effect by changing the chemical composition due to S doping, we investigate the superconducting properties of high-quality single crystals of FeSe sub(1-x)S sub(x)(x = 0, 0.04, 0.09, and 0.11) using magnetization, resistivity, the London penetration depth, and low temperature specific heat measurements. We show that the introduction of S to FeSe enhances the superconducting transition temperature T sub(c), anisotropy, upper critical field H sub(c2), and critical current density J sub(c). The upper critical field H sub(c2)(T) and its anisotropy are strongly temperature dependent, indicating a multiband superconductivity in this system. Through the measurements and analysis of the London penetration depth [lambda] sub(ab)(T) and specific heat, we show clear evidence for strong coupling two-gap s-wave superconductivity. The temperature dependence of [lambda] sub(ab)(T) calculated from the lower critical field and electronic specific heat can be well described by using a two-band model with s-wave-like gaps. We find that a d wave and single-gap BCS theory under the weak-coupling approach cannot describe our experiments. The change of specific heat induced by the magnetic field can be understood only in terms of multiband superconductivity.
doi_str_mv 10.1103/PhysRevB.91.165109
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subjects Anisotropy
Condensed matter
Critical field (superconductivity)
Iron
Mathematical models
Penetration depth
Specific heat
Superconductivity
title Superconducting properties of sulfur-doped iron selenide
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