Anomalous peak effect in heavy‐fermion, intermediate‐valence and A15 superconductors: Evidence for a Fulde‐Ferrell‐Larkin‐Ovchinnikov state? - Concepedia

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Anomalous peak effect in heavy‐fermion, intermediate‐valence and A15 superconductors: Evidence for a Fulde‐Ferrell‐Larkin‐Ovchinnikov state?

20

Citations

18

References

1996

Year

P. Gegenwart, M. Deppe, M. Köppen, F. Kromer, Michael Lang, R. Modler, M. Weiden, C. Geibel, F. Steglich, T. Fukase,

Annalen der Physik

Superconducting MaterialCharge ExcitationsEngineeringLow-dimensional MagnetismBismuth-based SuperconductorsMagnetic ResonanceMagnetic MaterialsFulde‐ferrell‐larkin‐ovchinnikov StateCritical CurrentsMagnetismNovel SuperconductorsSuperconductivityQuantum MaterialsA15 SuperconductorsHigh Tc SuperconductorsSuperconducting DevicesCollective PinningHigh-tc SuperconductivityPhysicsClean High‐κ SuperconductorsSolid-state PhysicQuantum MagnetismHigh-temperature SuperconductivityAnomalous Peak EffectNatural SciencesCondensed Matter PhysicsApplied PhysicsDilatometric Measurements

Abstract

Abstract An experimental study based upon magnetic and dilatometric measurements is presented for the clean high‐κ superconductors UPd 2 Al 3 , CeRu 2 and V 3 Si. All three compounds show an enhanced spin susceptibility. Their superconducting state is strongly Pauli limited, and an anomalous peak effect is observed at T<(0.8‐0.9)T c , slightly below H c2 (T). This phenomenon appears to be qualitatively consistent with a first‐order transition between weak and collective pinning, caused by the formation of a staggered order parameter in a generalized Fulde‐Ferrell‐Larkin‐Ovchinnikov phase (M. Tachiki et al., Z. Phys. B, in press).

References

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