Pressure effects on the electronic properties of the undoped superconductor ThFeAsN

N. Barbero; S. Holenstein; T. Shang; Z. Shermadini; F. Lochner; I. Eremin; C. Wang; G. H. Cao; R. Khasanov; H. R. Ott; J. Mesot; T. Shiroka

doi:10.1103/PhysRevB.97.140506

Pressure effects on the electronic properties of the undoped superconductor ThFeAsN

N. Barbero, S. Holenstein, T. Shang, Z. Shermadini, F. Lochner, I. Eremin, C. Wang, G. H. Cao, R. Khasanov, H. R. Ott, J. Mesot, T. Shiroka

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8 Scopus citations

Abstract

The recently synthesized ThFeAsN iron pnictide superconductor exhibits a Tc of 30 K, the highest of the 1111-type series in the absence of chemical doping. To understand how pressure affects its electronic properties, we carried out microscopic investigations up to 3 GPa via magnetization, nuclear magnetic resonance, and muon-spin rotation experiments. The temperature dependence of the As75 Knight shift, the spin-lattice relaxation rates, and the magnetic penetration depth suggest a multiband s±-wave gap symmetry in the dirty limit, whereas the gap-to-Tc ratio Δ/kBTc hints at a strong-coupling scenario. Pressure modulates the geometrical parameters, thus reducing Tc as well as Tm, the temperature where magnetic-relaxation rates are maximized, both at the same rate of approximately -1.1K/GPa. This decrease in Tc with pressure is consistent with band-structure calculations, which relate it to the deformation of the Fe 3dz2 orbitals.

Original language	English
Article number	140506
Journal	Physical Review B
Volume	97
Issue number	14
DOIs	https://doi.org/10.1103/PhysRevB.97.140506
State	Published - 13 Apr 2018
Externally published	Yes

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10.1103/PhysRevB.97.140506

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title = "Pressure effects on the electronic properties of the undoped superconductor ThFeAsN",

abstract = "The recently synthesized ThFeAsN iron pnictide superconductor exhibits a Tc of 30 K, the highest of the 1111-type series in the absence of chemical doping. To understand how pressure affects its electronic properties, we carried out microscopic investigations up to 3 GPa via magnetization, nuclear magnetic resonance, and muon-spin rotation experiments. The temperature dependence of the As75 Knight shift, the spin-lattice relaxation rates, and the magnetic penetration depth suggest a multiband s±-wave gap symmetry in the dirty limit, whereas the gap-to-Tc ratio Δ/kBTc hints at a strong-coupling scenario. Pressure modulates the geometrical parameters, thus reducing Tc as well as Tm, the temperature where magnetic-relaxation rates are maximized, both at the same rate of approximately -1.1K/GPa. This decrease in Tc with pressure is consistent with band-structure calculations, which relate it to the deformation of the Fe 3dz2 orbitals.",

author = "N. Barbero and S. Holenstein and T. Shang and Z. Shermadini and F. Lochner and I. Eremin and C. Wang and Cao, \{G. H.\} and R. Khasanov and Ott, \{H. R.\} and J. Mesot and T. Shiroka",

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doi = "10.1103/PhysRevB.97.140506",

language = "英语",

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T1 - Pressure effects on the electronic properties of the undoped superconductor ThFeAsN

AU - Barbero, N.

AU - Holenstein, S.

AU - Shang, T.

AU - Shermadini, Z.

AU - Lochner, F.

AU - Eremin, I.

AU - Wang, C.

AU - Cao, G. H.

AU - Khasanov, R.

AU - Ott, H. R.

AU - Mesot, J.

AU - Shiroka, T.

PY - 2018/4/13

Y1 - 2018/4/13

N2 - The recently synthesized ThFeAsN iron pnictide superconductor exhibits a Tc of 30 K, the highest of the 1111-type series in the absence of chemical doping. To understand how pressure affects its electronic properties, we carried out microscopic investigations up to 3 GPa via magnetization, nuclear magnetic resonance, and muon-spin rotation experiments. The temperature dependence of the As75 Knight shift, the spin-lattice relaxation rates, and the magnetic penetration depth suggest a multiband s±-wave gap symmetry in the dirty limit, whereas the gap-to-Tc ratio Δ/kBTc hints at a strong-coupling scenario. Pressure modulates the geometrical parameters, thus reducing Tc as well as Tm, the temperature where magnetic-relaxation rates are maximized, both at the same rate of approximately -1.1K/GPa. This decrease in Tc with pressure is consistent with band-structure calculations, which relate it to the deformation of the Fe 3dz2 orbitals.

AB - The recently synthesized ThFeAsN iron pnictide superconductor exhibits a Tc of 30 K, the highest of the 1111-type series in the absence of chemical doping. To understand how pressure affects its electronic properties, we carried out microscopic investigations up to 3 GPa via magnetization, nuclear magnetic resonance, and muon-spin rotation experiments. The temperature dependence of the As75 Knight shift, the spin-lattice relaxation rates, and the magnetic penetration depth suggest a multiband s±-wave gap symmetry in the dirty limit, whereas the gap-to-Tc ratio Δ/kBTc hints at a strong-coupling scenario. Pressure modulates the geometrical parameters, thus reducing Tc as well as Tm, the temperature where magnetic-relaxation rates are maximized, both at the same rate of approximately -1.1K/GPa. This decrease in Tc with pressure is consistent with band-structure calculations, which relate it to the deformation of the Fe 3dz2 orbitals.

UR - https://www.scopus.com/pages/publications/85045462895

U2 - 10.1103/PhysRevB.97.140506

DO - 10.1103/PhysRevB.97.140506

M3 - 文章

AN - SCOPUS:85045462895

SN - 2469-9950

VL - 97

JO - Physical Review B

JF - Physical Review B

IS - 14

M1 - 140506

ER -

Pressure effects on the electronic properties of the undoped superconductor ThFeAsN

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