Enhanced superfluid stiffness, lowered superconducting transition temperature, and field-induced magnetic state of the pnictide superconductor LiFeAs - Concepedia

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Enhanced superfluid stiffness, lowered superconducting transition temperature, and field-induced magnetic state of the pnictide superconductor LiFeAs

DOI Full Paper Access

46

Citations

14

References

2009

Year

F. L. Pratt, Peter J. Baker, Stephen J. Blundell, Tom Lancaster, H. J. Lewtas, Paul Adamson, Michael J. Pitcher, Dinah R. Parker, Simon J. Clarke

Physical Review B

Superconducting MaterialEngineeringSuperfluid StiffnessMagnetic ResonanceCritical CurrentsMagnetismEnhanced Superfluid StiffnessSuperconductivityHigh Tc SuperconductorsSuperconducting DevicesLow-temperature SuperconductivityMaterials ScienceHigh-tc SuperconductivityPhysicsTransition TemperatureQuantum MagnetismPnictide Superconductor LifeasMagnetic InstabilityHigh-temperature SuperconductivityNatural SciencesCryogenicsCondensed Matter PhysicsApplied PhysicsQuantum Superconductivity

Abstract

Transverse-field muon-spin rotation measurements performed on two samples of LiFeAs demonstrate that the superfluid stiffness of the superconducting condensate in relation to its superconducting transition temperature is enhanced compared to other pnictide superconductors. Evidence is seen for a field-induced magnetic state in a sample with a significantly suppressed superconducting transition temperature. The results in this system highlight the role of direct Fe-Fe interactions in frustrating pairing mediated by antiferromagnetic fluctuations and indicate that, in common with other pnictide superconductors, the system is close to a magnetic instability.

References

	Year	Citations

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