Direct observation of the depairing current density in single-crystalline Ba0.5K0.5Fe2As2 microbridge with nanoscale thickness - Concepedia

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Direct observation of the depairing current density in single-crystalline Ba0.5K0.5Fe2As2 microbridge with nanoscale thickness

DOI Full Paper Access

26

Citations

24

References

2013

Year

Jun Li, Jie Yuan, Yahua Yuan, Jun‐Yi Ge, Mengyue Li, Hai L. Feng, Paulo J. Pereira, Akira Ishii, Takeshi Hatano, A. V. Silhanek,

Applied Physics Letters

Magnetic PropertiesEngineeringCurrent DensityMagnetic MaterialsMagnetoresistanceSemiconductor DeviceMagnetismSingle-crystalline Ba0.5k0.5fe2as2 MicrobridgeSuperconductivityQuantum MaterialsDirect ObservationWeakly Anisotropic FactorMolecular Beam EpitaxyMaterials SciencePhysicsCritical Current DensitySemiconductor MaterialMagnetic MaterialSolid-state PhysicAnisotropic Ginzburg-landau ScalingFerromagnetismNatural SciencesApplied PhysicsCondensed Matter PhysicsMagnetic Property

Abstract

We investigated the critical current density (Jc) of Ba0.5K0.5Fe2As2 single-crystalline microbridges with thicknesses ranging from 276 to 18 nm. The Jc of the microbridge with thickness down to 91 nm is 10.8 MA/cm2 at 35 K, and reaches 944.4 MA/cm2 by extrapolating Jc(T) to T = 0 K using a two-gap s-wave Ginzburg-Landau model, well in accordance with the depairing current limit. The temperature, magnetic field, and angular-dependence of Jc(T,H,θ) indicated weaker field dependence and weakly anisotropic factor of 1.15 (1 T) and 1.26 (5 T), which also yielded the validity of the anisotropic Ginzburg-Landau scaling.

References

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