Abstract
High-quality single crystals of the unconventional superconductor NdFeAsO1 − xFx were grown. We developed a new optimized flux technique to overcome the difficulties in single-crystal growth and the sample quality limitations of NdFeAsO1 − xFx. The normal state of the F-doped samples exhibits simple metallic behavior upon cooling down from room temperature, followed by a sharp superconducting transition. The values of residual resistivity ratio (RRR) is 3.2, 6.4, and 10.3 for x = 0.1, 0.15, and 0.2, respectively. Both the large RRR and the narrow superconducting transition signpost the high quality of the crystals. We have examined the in- and out-of-plane lower critical fields, and the field at which vortices penetrate the sample of NdFeAsO1 − xFx (x = 0.1). The anisotropy ratio [γHc1 (0)] increased slightly with increasing temperature from 0.8 Tc to Tc. The temperature dependence of the first vortex penetration field was obtained under the static magnetic field, H, parallel to the c- and ab- axis, and pronounced changes in the Hc1(T) curvature were observed, which are attributed to the multi-band superconductivity.
Highlights
In many correlated electron materials, several ground states are often competing with each other.adjusting certain parameters may allow switching from one ground state to another.Typical control parameters include the magnetic field, pressure, electron density, and chemical composition [1]
Adjusting certain parameters may allow switching from one ground state to another
The NdFeAsO1 − x Fx compound is one of the 1111 iron pnictides: type-II superconductors containing sets of two-dimensional iron arsenide layers that exhibit a tetragonal structure at ambient conditions [3,4]
Summary
In many correlated electron materials, several ground states are often competing with each other.adjusting certain parameters may allow switching from one ground state to another.Typical control parameters include the magnetic field, pressure, electron density, and chemical composition [1]. In many correlated electron materials, several ground states are often competing with each other. Adjusting certain parameters may allow switching from one ground state to another. Typical control parameters include the magnetic field, pressure, electron density, and chemical composition [1]. The NdFeAsO1 − x Fx compound is one of the 1111 iron pnictides: type-II superconductors containing sets of two-dimensional iron arsenide layers that exhibit a tetragonal structure at ambient conditions [3,4]. This compound shows a sharp superconducting (SC)transition [5]. The resistivity measurements reveal quite a small anisotropy and a huge upper critical field, and encourage several applications of this compound [7]
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