The normal-state resistivity of grain boundaries in YBa2Cu3O7−δ

Ransley, J. H. T.; Mennema, S. H.; Sandeman, K. G.; Burnell, Gavin; Kye, J. I.; Oh, B.; Tarte, E.J.; Evetts, J. E.; Blamire, M. G.

doi:10.1063/1.1753055

Cited by 11 publications

(17 citation statements)

References 20 publications

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“…Actually, the tunnel barrier is considered as consisting of three layers: the structurally distorted interface in the middle and two adjacent charge-depleted layers of undistorted material [1], [4], [17]. To include low-frequency voltage noise into this band-bending model, the fluctuations of trapped charge at the structural interface might be considered like in semiconductor grain boundaries [18].…”

Section: Discussionmentioning

confidence: 99%

Electrical Transport and Noise Properties of [100]-Tilt ${\hbox{YBa}}_{2}{\hbox{Cu}}_{3}{\hbox{O}}_{7{-}{\rm x}}$ Grain-Boundary Junctions With High $I_{c}R_{n}$ Product

Lyatti

Poppe²,

Divin³

2007

IEEE Trans. Appl. Supercond.

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We have studied electrical transport and low-frequency noise properties of [100]-tilt bicrystal YBa 2 Cu 3 O 7 x junctions, which show a lower degree of structural disorder and higher characteristic voltages in comparison with conventional [001]-tilt grain-boundary junctions. The oxygen content of the junction barrier was varied by an annealing in atomic oxygen and by aging in molecular oxygen. The modification of the curves and low-frequency noise were monitored. The terahertz losses in the junctions were derived and were shown to decrease with the increase of the oxygen content. It was found that the resistance and critical current fluctuations are completely antiphase correlated and intensities of normalized resistance and critical current low-frequency fluctuations are equal in these junctions. Consequently, quasiparticles and Cooper pairs in the [100]-tilt junctions tunnel directly through the same parts of the barrier, and a band-bending model with the charge fluctuations at the barrier can applied to explain the modification of the [100]-tilt grain-boundary junctions after oxygen loading and aging.

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Section: Discussionmentioning

confidence: 99%

Electrical Transport and Noise Properties of [100]-Tilt ${\hbox{YBa}}_{2}{\hbox{Cu}}_{3}{\hbox{O}}_{7{-}{\rm x}}$ Grain-Boundary Junctions With High $I_{c}R_{n}$ Product

Lyatti

Poppe²,

Divin³

2007

IEEE Trans. Appl. Supercond.

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“…17 It was found that the behaviour is Within the framework of this model, the barrier height is associated with the magnitude of the transport current, whereas the trapezoidal shape is linked with its temperature dependence. The temperature dependence can be explained by taking into account that, with increasing temperature, charge carriers will have a higher average energy, and will, due to the trapezoidal potential barrier, encounter a narrower effective tunnel barrier.…”

Section: Discussionmentioning

confidence: 99%

“…18 For this reason, the Wheatstone bridge measurement technique was developed, originally for grain boundaries in CMR materials 19 and later for grain boundaries in YBa 2 Cu 3 O 7-δ . [16][17][18] If the bridge structure is aligned with a grain boundary, the symmetry of the geometry ensures that all the resistance contributions balance to zero except for those arising from the grain boundary. In order to increase accuracy of the method, a Wheatstone bridge geometry that straddles the grain boundary 20 times (per arm) was applied.…”

mentioning

confidence: 99%

Normal-state properties of high-angle grain boundaries in(Y,Ca)Ba2Cu3O
Mennema
¹
,
Ransley
²
,
Burnell
³

et al. 2005
Phys. Rev. B
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By lithographically fabricating an optimised Wheatstone bridge geometry, we have been able to make accurate measurements of the resistance of grain boundaries in Y 1-x Ca x Ba 2 Cu 3 O 7-δ between the superconducting transition temperature, T c , and room temperature. Below T c the normal state properties were assessed by applying sufficiently high currents. The behaviour of the grain boundary resistance versus temperature and of the conductance versus voltage are discussed in the framework charge transport through a tunnel barrier. The influence of misorientation angle, oxygen content, and calcium doping on the normal state properties is related to changes of the height and shape of the grain boundary potential barrier.

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“…Among a variety of possible crystallographic orienta tions of grains forming a boundary, the [001] tilt GB (see Fig. 1a) had been studied the most intensively with an emphases on the effect of order parameter symmetry and the mechanisms of charge transfer across the GB interface [1,2,[7][8][9][10][11][12][13][14][15].Recently, [100] tilt high T c GB junctions with mutually tilted c axis's (see Fig. 1b) have been fabri cated [16][17][18][19][20][21][22][23][24][25] with an order of magnitude lower GB meandering and up to a threefold increase of the I c R n values [16][17][18][19].…”

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Anisotropic distributions of electrical currents in high-T c grain-boundary junctions

et al. 2012

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A decisive role in electrical transport in high T c superconducting materials with anisotropic pairing, like cuprate superconductors [1,2] and Fe based compounds [3][4][5][6], belongs to grain boundaries (GB). Among a variety of possible crystallographic orienta tions of grains forming a boundary, the [001] tilt GB (see Fig. 1a) had been studied the most intensively with an emphases on the effect of order parameter symmetry and the mechanisms of charge transfer across the GB interface [1,2,[7][8][9][10][11][12][13][14][15].Recently, [100] tilt high T c GB junctions with mutually tilted c axis's (see Fig. 1b) have been fabri cated [16][17][18][19][20][21][22][23][24][25] with an order of magnitude lower GB meandering and up to a threefold increase of the I c R n values [16][17][18][19]. A complete antiphase correlation between low frequency fluctuations of the resistance R n and the critical current I c has been observed in these junctions, thus showing that both quasiparticles and Cooper pairs flow directly through the same regions of the barrier [24]. In spite of intensive efforts, the mech anisms of electrical transport through grain bound aries in high T c superconductors are still far from understanding. This is true not only in respect of phys ics of conductivity of GB itself, but also in respect of influence of normal and supercurrent redistribution in the vicinity of GB on their properties.It is well known that strong anisotropy of resistivity of high T c materials must be taken into account during ¶ The article is published in the original.interpretations of electrical data. A simple assumption that electrical resistivity of the material is proportional to the measured resistance with some coefficient of proportionality given by sample geometry may give an incorrect result [26-36].We developed a self consistent method for the calculation of spatial current distributions in high T c grain boundary junctions. It is found that crystallographic anisotropy of high T c superconducting electrodes results in the effects, which previously were not taken into account for interpretations of experimental data. Among them is a significant redistribution of electrical currents in superconducting electrodes in the vicinity of a grain boundary. In particular in the case of [100] tilt bicrystal junctions, this current redistribution results in a substantial focusing to the top or bottom part of a thickness of the grain boundary, depending on "roof" or "valley" type of the grain boundary. This redistribution is accompanied by generation of vortex currents around the grain boundary, which leads to self biasing of grain boundary junctions by magnetic field nucle ated by these vortex currents. It is shown that twinning or variation of geometrical shape of the high T c elec trode may also result in intensive redistribution of electrical currents and nucleation of local magnetic fields inside a high T c superconducting electrodes. Fig. 1. Schematic diagram showing the crystallography of a [001] tilt boundary (a), a [100] tilt b...

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The normal-state resistivity of grain boundaries in YBa2Cu3O7−δ

Cited by 11 publications

References 20 publications

Electrical Transport and Noise Properties of [100]-Tilt ${\hbox{YBa}}_{2}{\hbox{Cu}}_{3}{\hbox{O}}_{7{-}{\rm x}}$ Grain-Boundary Junctions With High $I_{c}R_{n}$ Product

Electrical Transport and Noise Properties of [100]-Tilt ${\hbox{YBa}}_{2}{\hbox{Cu}}_{3}{\hbox{O}}_{7{-}{\rm x}}$ Grain-Boundary Junctions With High $I_{c}R_{n}$ Product

Normal-state properties of high-angle grain boundaries in(Y,Ca)Ba2Cu3O
Mennema
¹
,
Ransley
²
,
Burnell
³

et al. 2005
Phys. Rev. B
Self Cite
7
0
8
0
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Anisotropic distributions of electrical currents in high-T c grain-boundary junctions

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The normal-state resistivity of grain boundaries in YBa2Cu3O7−δ

Cited by 11 publications

References 20 publications

Electrical Transport and Noise Properties of [100]-Tilt ${\hbox{YBa}}_{2}{\hbox{Cu}}_{3}{\hbox{O}}_{7{-}{\rm x}}$ Grain-Boundary Junctions With High $I_{c}R_{n}$ Product

Electrical Transport and Noise Properties of [100]-Tilt ${\hbox{YBa}}_{2}{\hbox{Cu}}_{3}{\hbox{O}}_{7{-}{\rm x}}$ Grain-Boundary Junctions With High $I_{c}R_{n}$ Product

Normal-state properties of high-angle grain boundaries in(Y,Ca)Ba2Cu3OMennema1, Ransley2, Burnell3 et al. 2005Phys. Rev. BSelf Cite7080View full textAdd to dashboardCite

Anisotropic distributions of electrical currents in high-T c grain-boundary junctions

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Normal-state properties of high-angle grain boundaries in(Y,Ca)Ba2Cu3O
Mennema
¹
,
Ransley
²
,
Burnell
³

et al. 2005
Phys. Rev. B
Self Cite
7
0
8
0
View full text Add to dashboard Cite