Relaxation dynamics of vortex lines in disordered type-II superconductors following magnetic field and temperature quenches

Assi, Hiba; Chaturvedi, Harshwardhan; Dobramysl, Ulrich; Pleimling, Michel; Täuber, Uwe C.

doi:10.1103/physreve.92.052124

Cited by 14 publications

(22 citation statements)

References 44 publications

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“…One efficient way to study a system with metastable magnetic responses is to measure the magnetic relaxation with time. This has been used to study spin dynamics [31,32], interacting magnetic nanoparticles [33,34] and superconductors [35][36][37]. In order to probe the vortex configurations in different regions of the phase diagram, we measured the magnetic relaxation across the different phase boundaries, as indicated by the crosses in figure 5(b).…”

Section: Resultsmentioning

confidence: 99%

Paramagnetic Meissner effect in ZrB₁₂single crystal with non-monotonic vortex–vortex interactions

Gladilin

Sluchanko

et al. 2017

New J. Phys.

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The magnetic response related to the paramagnetic Meissner effect (PME) is studied in a high quality single crystal ZrB 12 with non-monotonic vortex-vortex interactions. We observe the expulsion and penetration of magnetic flux in the form of vortex clusters with increasing temperature. A vortex phase diagram is constructed, and shows that the PME can be explained by considering the interplay among the flux compression, the different temperature dependencies of the vortex-vortex and the vortex-pin interactions, and thermal fluctuations. Such a scenario is in good agreement with the results of magnetic relaxation measurements.

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Section: Resultsmentioning

confidence: 99%

Paramagnetic Meissner effect in ZrB₁₂single crystal with non-monotonic vortex–vortex interactions

Gladilin

Sluchanko

et al. 2017

New J. Phys.

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“…For our implementation of the Langevin molecular dynamics method for disordered type-II superconductors [6,[13][14][15] we also require expressions for the vortex-vortex interaction as well as for the attractive pinning potential. The repulsive in-plane vortex-vortex interaction is given by…”

Section: Implementation For Disordered Type-ii Superconductorsmentioning

confidence: 99%

Disordered vortex matter out of equilibrium: a Langevin molecular dynamics study

Assi

Chaturvedi

Dobramysl

et al. 2016

Molecular Simulation

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We discuss the use of Langevin molecular dynamics in the investigation of the non-equilibrium properties of disordered vortex matter. Our special focus is set on values of system parameters that are realistic for disordered high-Tc superconductors such as YBCO. Using a discretized elastic line model, we study different aspects of vortices far from thermal equilibrium. On the one hand we investigate steady-state properties of driven magnetic flux lines in a disordered environment, namely the current-voltage characteristics, the gyration radius, and the pinning time statistics. On the other hand we study the complex relaxation processes and glassy-like dynamics that emerge in type-II superconductors due to the intricate competition between the long-range vortex-vortex repulsion and flux pinning due to randomly placed point defects. To this end we consider different types of sudden perturbations: temperature, magnetic field, and external current quenches.

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“…In this present work, we employ an elastic line model to study critical behavior near the depinning transition for vortices in the presence of weak attractive random quenched disorder (point defects) in a three-dimensional system (d = 3) with a two-dimensional displacement vector (N = 2) [42][43][44][45][46][47] . We perform finite-temperature scaling on both steady-state velocity and radius of gyration data and thereby obtain the stationary critical scaling exponents β, δ, and ν that characterize the depinning process as a continuous second-order phase transition at zero temperature, finding β to be in good agreement with experimental values.…”

Section: Introductionmentioning

confidence: 99%

Critical scaling and aging near the flux-line-depinning transition

et al. 2020

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We utilize Langevin molecular dynamics simulations to study dynamical critical behavior of magnetic flux lines near the depinning transition in type-II superconductors subject to randomly distributed attractive point defects. We employ a coarse-grained elastic line Hamiltonian for the mutually repulsive vortices and purely relaxational kinetics. In order to infer the stationary-state critical exponents for the continuous non-equilibrium depinning transition at zero temperature T = 0 and at the critical driving current density jc, we explore two-parameter scaling laws for the flux lines' gyration radius and mean velocity as functions of the two relevant scaling fields T and j − jc. We also investigate critical aging scaling for the two-time height auto-correlation function in the early-time non-equilibrium relaxation regime to independently measure critical exponents. We provide numerical exponent values for the distinct universality classes of non-interacting and repulsive vortices.

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Relaxation dynamics of vortex lines in disordered type-II superconductors following magnetic field and temperature quenches

Cited by 14 publications

References 44 publications

Paramagnetic Meissner effect in ZrB₁₂single crystal with non-monotonic vortex–vortex interactions

Paramagnetic Meissner effect in ZrB₁₂single crystal with non-monotonic vortex–vortex interactions

Disordered vortex matter out of equilibrium: a Langevin molecular dynamics study

Critical scaling and aging near the flux-line-depinning transition

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Relaxation dynamics of vortex lines in disordered type-II superconductors following magnetic field and temperature quenches

Cited by 14 publications

References 44 publications

Paramagnetic Meissner effect in ZrB12single crystal with non-monotonic vortex–vortex interactions

Paramagnetic Meissner effect in ZrB12single crystal with non-monotonic vortex–vortex interactions

Disordered vortex matter out of equilibrium: a Langevin molecular dynamics study

Critical scaling and aging near the flux-line-depinning transition

Contact Info

Product

Resources

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Paramagnetic Meissner effect in ZrB₁₂single crystal with non-monotonic vortex–vortex interactions

Paramagnetic Meissner effect in ZrB₁₂single crystal with non-monotonic vortex–vortex interactions