Y. Beggah scite author profile

Using the spatial dependence of the penetration depth derived from the electron scattering mechanism near a planar defect (twin or grain boundary), the London formalism has been revisited. We used a perturbative approach to calculate the magnetic field of a vortex in the presence of a planar defect. Moreover, the vortex energy has been derived as a function of the vortex-defect distance. We found the interaction between the vortex and the defect to be attractive. However, the vortex core is not pinned on the plane but at a distance of 90 Å at zero temperature. As the temperature increases, the vortex pinning energy and the vortex-plane defect distance decrease. Due to the thermal fluctuation a transition is occurring such that for T < T tr the vortex is oscillating around one well position, as for T < T tr the vortex is oscillating in the self-consistent well formed by the two wells which are symmetric with respect to the plane defect, and so the vortex appears to be vibrating around the plane defect.

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RF magnetron sputtering of ZnO and Al-doped ZnO films from ceramic and nanopowder targets: a comparative study

Bouznit

Beggah

Djessas

2011

J Sol-Gel Sci Technol

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Y. Beggah

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Magnetic field of a single vortex in the presence of a planar defect: vortex pinning by a planar defect

RF magnetron sputtering of ZnO and Al-doped ZnO films from ceramic and nanopowder targets: a comparative study

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