Numerical Simulation of Vortex Dynamics in Type-II Superconductors

Gropp, William; Kaper, Hans G.; Leaf, Gary K.; Levine, David; Palumbo, Mario; Vinokur, V. M.

doi:10.1006/jcph.1996.0022

Cited by 228 publications

(126 citation statements)

References 9 publications

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“…A similar asymptotic analysis can be carried out in the presence of a varying equilibrium density of superconducting electrons as in (39)- (40). In this case the London equation becomes…”

Section: Vortex Pinning In the London Modelmentioning

confidence: 97%

See 1 more Smart Citation

A Hierarchy of Models for Type-II Superconductors

Chapman¹

2000

SIAM Rev.

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“…A similar asymptotic analysis can be carried out in the presence of a varying equilibrium density of superconducting electrons as in (39)- (40). In this case the London equation becomes…”

Section: Vortex Pinning In the London Modelmentioning

confidence: 97%

“…We note though the mathematical reviews of the model in [17,31,41], the pioneering work on the vortex state by Abrikosov [1], and the numerical simulations of [23,29,30,40,42].…”

Section: The Ginzburg-landau Equationsmentioning

confidence: 99%

A Hierarchy of Models for Type-II Superconductors

Chapman¹

2000

SIAM Rev.

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“…16 The main idea behind this technique is to guarantee that the discretization of the TDGL equations preserves gauge invariance. 10,11 Otherwise, one may obtain undesirable non-physical solutions. Another advantage is that, by incorporating this field into the conventional TDGL equation for the order parameter, we obtain an equation which resembles a diffusion equation, the discretization of which has a very well defined stability criterion.…”

Section: Auxiliary Fieldsmentioning

confidence: 99%

Numerical solution of the time dependent Ginzburg-Landau equations for mixed (d + s)-wave superconductors

Goncalves¹,

Sardella²,

Becerra³

et al. 2014

Journal of Mathematical Physics

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“…We used Uψ method [4] for solve the TDGL equations in a discrete grid. Complex link variables U x and U y are introduced to preserve the gauge-invariant properties of the discretized equations.…”

Section: Theoretical Formalismmentioning

confidence: 99%

“…Several phenomenological theories have been developed during the decades of research in superconductivity. The London theory, the Ginzburg -Landau theory and its time dependent extension, known as Time Dependent Ginzburg -Landau (TDGL) theory have been widely used during the years of research into superconductivity [3,4]. In previous work, we have studied the properties of mesoscopic superconducting samples surrounded by different metallic materials using TDGL equations [9][10][11].…”

Section: Introductionmentioning

confidence: 99%

Effect of an columnar defect on vortex configuration in a superconducting mesoscopic sample

Barba-Ortega¹,

Becerra²,

González³

2009

Braz. J. Phys.

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In this work we investigate the vortex dynamics in a square mesoscopic superconducting cylinder in the presence of an applied magnetic field parallel to its axis. The rectangular cross-section of the sample is L 2 and an engineered columnar defect of area d 2 at the center is taken into account; L = 12ξ(0) for all simulations while d varies discretely from 1ξ(0) to 10ξ(0). We study the magnetization and the vortex configuration, increasing the magnetic field from zero to the normal state field. We found that for d ≥ 7ξ(0) no vortices in the superconductor area are possible. Also, if the size of the defect is reduced, the nucleation fields decrease.

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Numerical Simulation of Vortex Dynamics in Type-II Superconductors

Cited by 228 publications

References 9 publications

A Hierarchy of Models for Type-II Superconductors

A Hierarchy of Models for Type-II Superconductors

Numerical solution of the time dependent Ginzburg-Landau equations for mixed (d + s)-wave superconductors

Effect of an columnar defect on vortex configuration in a superconducting mesoscopic sample

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