Slow Vortex Creep Induced by Strong Grain Boundary Pinning in Advanced Ba122 Superconducting Tapes*

Dong, Chune; Huang, He; Ma, Yanwei

doi:10.1088/0256-307x/36/6/067401

Cited by 15 publications

(9 citation statements)

References 35 publications

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“…This is consequence of the higher critical current density of this conductor with respect to the flat rolled one, as shown in figure 1. In the case of the hot-pressed sample, we observed flux jump instabilities at low fields and for temperatures up to ∼20 K, similarly to what reported in [27]. Critical state models predict that the maximum of the M(H) hysteresis loop occurs at H = 0 [28].…”

Section: Resultssupporting

confidence: 84%

“…At 15 K, the signal was too noisy to determine S with sufficient accuracy above 3 T. S is expected to increase when the vortex pinning becomes less effective. Normally, this occurs upon increasing the temperature or the field because of a change in the vortex dynamics regime or in the nature itself of the vortex matter, as in the case of lattice melting [26,27,30]. We observe a clear increase of S with the temperature when H is on the tape plane.…”

Section: Resultsmentioning

confidence: 78%

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Current transport, magnetic and elemental properties of densified Ag-sheathed Ba_1−xK_xFe₂As₂ tapes

Bonura

Huang

Yao

et al. 2020

Supercond. Sci. Technol.

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Understanding the mechanisms that limit the current transport in granular iron-based superconductors is necessary to unlock their potential for magnet applications. This paper reports the transport critical current surface I C (T,H) of powder-in-tube Ag/Ba 1−x K x Fe 2 As 2 tapes densified by flat rolling and uniaxial hot pressing. We investigate the amplitude of the isothermal-I C (H)-curve magnetic hysteresis, which is a marker for the electrical connectivity between superconducting grains. This allows us to demonstrate that, in spite of an improved connectivity, the percolative path through weakly linked grains continues to play a role in the I C properties of hot-pressed conductors. The limitations to the current transport due to weak links depend on the orientation of the magnetic field and are more severe when H is on the tape plane. This finding provides a justification to the puzzling evidence that I C (H) can be smaller for magnetic fields applied on the tape plane and not perpendicular to it. Finally, we report an unexpected increase of I C upon augmenting the magnetic field from 0 to ∼2 T. SQUID measurements reveal a superparamagnetic-like magnetic background that takes place in the same range of magnetic fields. A microscopic study of the conductor-core elemental composition provides evidences that these features can be both related to the presence of Fe-rich non-stoichiometric regions in the superconducting core. On a more general note, this study points out that further advances in the in-field current transport properties of powder-in-tube Ag/Ba 1−x K x Fe 2 As 2 conductors are possible and rely to a large extent on solutions to improve the inter-grain connectivity and the quality of the superconducting phase.

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Section: Resultssupporting

confidence: 84%

Section: Resultsmentioning

confidence: 78%

Current transport, magnetic and elemental properties of densified Ag-sheathed Ba_1−xK_xFe₂As₂ tapes

Bonura

Huang

Yao

et al. 2020

Supercond. Sci. Technol.

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“…The critical fields between the vortex elastic lattice and vortex glass state or the vortex glass state and vortex liquid state is strongly affected by the anisotropic behaviors and correlated disorder of the superconductors. For example, in high-T c cuprate superconductors and (Li 1−x Fe x )OHFeSe with large anisotropic factor, vortex lattices possess twodimensional characteristic, which gives rise to the vortex glass field of H g is far from upper critical field H c2 [8][9][10].…”

Section: Introductionmentioning

confidence: 99%

Flux pinning and the vortex phase diagram in optimized CaKFe₄As₄ single crystals fabricated by a one-step method

Wang

Han

et al. 2020

Supercond. Sci. Technol.

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We have synthesized CaKFe 4 As 4 single crystals by a simple one-step method. X-ray analysis suggests that the single crystals are c-axis orientation and no obvious impurity phase can be detected. The onset transition temperature is about 35 K with the ΔT c ∼1 K. By measuring the magnetoreistance, the vortex liquid-to-glass transitions of the CaKFe 4 As 4 single crystals have been investigated. The effective flux pinning potential U 0 (B, T) and well scaling of the resistivity r(B, T) were achieved. The vortex phase diagrams have been established on the basic of vortex glass temperature T g and upper critical field H c2 . We have compared the vortex glass phase diagram of CaKFe 4 As 4 with Ba 1−x K x Fe 2 As 2 single crystals, and found that both samples have narrow vortex liquid region. The analysis on flux pinning indicates that the flux pinning ability of CaKFe 4 As 4 is very strong and only slightly smaller than Ba 1−x K x Fe 2 As 2 single crystals. The dependence of flux pinning energies U B of CaKFe 4 As 4 on magnetic induction is U B µ B −0.265 and B −0.177 for the H//c and H//ab, respectively. Taking the structural difference between CaKFe 4 As 4 and Ba 1−x K x Fe 2 As 2 into account, the origin of the flux pinning in CaKFe 4 As 4 may have close relationship with itself electronic inhomogeneity and accompanying nanosizedintercalation of CaFe 2 As 2 as well as distorted FeAs 4 -tetrahedrons.

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“…There are many ways, such as dynamical (static) magnetic relaxation, magneto-transport measurements, and ac susceptibility measurements, to study the vortex dynamics in iron-based superconductors. Based on the model of thermally activated flux creep within the collective vortex pinning, most of the experimental phenomena can be understood [30,31]. In contrast to other inductive measurements, ac susceptibility technology has the advantages of high sensitivity and acquiring data in a much shorter time window of 10 −1 -10 −4 s. It is well known that the temperature dependence of out of phase χ in susceptibility reveals the dissipation mechanism due to the vortex motion, and the maximum in the energy dissipation usually appears at a temperature T p slightly lower than the diamagnetic onset temperature in χ [32].…”

Section: Resultsmentioning

confidence: 99%

Vortex creep activation energies and depinning currents in CaKFe₄As₄ and Ba_0.6K_0.4Fe₂As₂ revealed by AC susceptibility measurements

Wang

Han

et al. 2020

J. Phys.: Condens. Matter

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Systematic ac susceptibility measurements have been carried out to study the vortex dynamics in CaKFe 4 As 4 and Ba 0.6 K 0.4 Fe 2 As 2 single crystals under various temperatures, dc magnetic fields, ac field frequencies and amplitudes. The field-temperature phase diagrams were shown, and the characteristics of irreversibility line were also derived. The specific expressions of activation energy on the parameters of temperature (T ), current density (J ), and dc magnetic field (H ) are obtained according to these data. The results indicate that both superconductors have similar functional expressions of activation energy and flux pinning behaviors. Though both CaKFe 4 As 4 and Ba 0.6 K 0.4 Fe 2 As 2 superconductors exhibit very strong flux pinning ability, the vortex pinning potential in CaKFe 4 As 4 is slightly smaller than that in Ba 0.6 K 0.4 Fe 2 As 2, which may result from its distorted FeAs 4 -tetrahedron in CaKFe 4 As 4 . The depinning critical current densities at the limit of low temperature and low field were also extrapolated, yielding the corresponding values of J c0 (0) ∼ 1.0 × 10 8 and 2.2 × 10 8 A cm −2 for CaKFe 4 As 4 and Ba 0.6 K 0.4 Fe 2 As 2 superconductors, respectively, which suggest potential applications. Keywords: iron-based superconductivity, CaKFe 4 As 4 , Ba 0.6 K 0.4 Fe 2 As 2 , AC susceptibility measurements, vortex-creep activation energy

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Slow Vortex Creep Induced by Strong Grain Boundary Pinning in Advanced Ba122 Superconducting Tapes*

Cited by 15 publications

References 35 publications

Current transport, magnetic and elemental properties of densified Ag-sheathed Ba_1−xK_xFe₂As₂ tapes

Current transport, magnetic and elemental properties of densified Ag-sheathed Ba_1−xK_xFe₂As₂ tapes

Flux pinning and the vortex phase diagram in optimized CaKFe₄As₄ single crystals fabricated by a one-step method

Vortex creep activation energies and depinning currents in CaKFe₄As₄ and Ba_0.6K_0.4Fe₂As₂ revealed by AC susceptibility measurements

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Slow Vortex Creep Induced by Strong Grain Boundary Pinning in Advanced Ba122 Superconducting Tapes*

Cited by 15 publications

References 35 publications

Current transport, magnetic and elemental properties of densified Ag-sheathed Ba1−xKxFe2As2 tapes

Current transport, magnetic and elemental properties of densified Ag-sheathed Ba1−xKxFe2As2 tapes

Flux pinning and the vortex phase diagram in optimized CaKFe4As4 single crystals fabricated by a one-step method

Vortex creep activation energies and depinning currents in CaKFe4As4 and Ba0.6K0.4Fe2As2 revealed by AC susceptibility measurements

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Product

Resources

About

Current transport, magnetic and elemental properties of densified Ag-sheathed Ba_1−xK_xFe₂As₂ tapes

Current transport, magnetic and elemental properties of densified Ag-sheathed Ba_1−xK_xFe₂As₂ tapes

Flux pinning and the vortex phase diagram in optimized CaKFe₄As₄ single crystals fabricated by a one-step method

Vortex creep activation energies and depinning currents in CaKFe₄As₄ and Ba_0.6K_0.4Fe₂As₂ revealed by AC susceptibility measurements