Magnetization rotation in a superconductor/ferromagnet bilayer ring structure

Superconducting poly-and single-crystalline samples of Sm 1-x Th x FeAsO with partial substitution of Sm 3+ by Th 4+ were synthesized and grown under high pressure and their structural, magnetic and transport properties are studied. The superconducting T c reaches values higher than 50 K. Bulk superconducting samples (x = 0.08, 0.15, 0.3) do not show any signs of a phase transition from tetragonal to orthorhombic crystal structure at low temperatures. With Th substitution the unit cell parameters a and c shrink and the fractional atomic coordinate of the As site z As remains almost unchanged, while that of Sm/Th z Sm/Th increases. Upon warming from 5 K to 295 K the expansion of the FeAs layer thickness is dominant, while the changes in the other structural building blocks are smaller by a factor of ∼ 1/5, and they compensate each other, since the As-Sm/Th distance appears to contract by about the same amount as the O-Sm/Th expands. The poly-and single-crystalline samples are characterized by a full diamagnetic response in low magnetic field, by a high intergrain critical-current density for polycrystalline samples, and by a critical current density of the order of 8 × 10 5 A/cm 2 for single crystals at 2 K in fields up to 7 T. The magnetic penetration depth anisotropy γ λ increases with decreasing temperature, a similar behavior to that of SmFeAsO 1-x F y single crystals. The upper critical field estimated from resistance measurements is anisotropic with slopes of ∼5.4 T/K (H||ab plane) and ∼2.7 T/K (H||c axis), at temperatures sufficiently far below T c . The upper critical field anisotropy γ H is in the range of ∼ 2, consistent with the tendency of a decreasing γ H with decreasing temperature, already reported for SmFeAsO 1-x F y single crystals.

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Th-substituted SmFeAsO: Structural details and superconductivity withTcabove 50 K

Zhigadlo

Katrych

Puźniak

et al. 2010

Phys. Rev. B

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Magnetization rotation in a superconductor/ferromagnet bilayer ring structure

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Th-substituted SmFeAsO: Structural details and superconductivity withTcabove 50 K

Th-substituted SmFeAsO: Structural details and superconductivity withTcabove 50 K

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