Visualizing Vortex Dynamics in Py/Nb Thin Film Hybrids by Low Temperature Magnetic Force Microscopy

We have analyzed the vortex dynamics in Py(1 μm)/SiO 2 (10 nm)/Nb(360 nm) thin film heterostructures as resulted from Magnetic Force Microscopy (MFM) frequency shift maps at low temperatures. The Nb film thickness has been chosen larger than the superconducting London penetration depth of about λ L...

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Bibliographic Details
Published in:Journal of superconductivity and novel magnetism 2012-10, Vol.25 (7), p.2167-2171
Main Authors: Cucolo, A. M., Scarfato, A., Iavarone, M., Longobardi, M., Bobba, F., Karapetrov, G., Novosad, V., Yefremenko, V.
Format: Article
Language:English
Subjects:
Characterization and Evaluation of Materials
Condensed Matter Physics
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Dynamics
Exact sciences and technology
Fluid flow
Magnetic fields
Magnetic Materials
Magnetic properties and materials
Magnetism
Metals, alloys and compounds (a15, 001c15, laves phases, chevrel phases, borocarbides, etc.)
Microscopy
Niobium
Original Paper
Physics
Physics and Astronomy
Strongly Correlated Systems
Studies of specific magnetic materials
Superconducting materials (excluding high-tc compounds)
Superconductivity
Thin films
Vortices
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Summary:We have analyzed the vortex dynamics in Py(1 μm)/SiO 2 (10 nm)/Nb(360 nm) thin film heterostructures as resulted from Magnetic Force Microscopy (MFM) frequency shift maps at low temperatures. The Nb film thickness has been chosen larger than the superconducting London penetration depth of about λ L =68 nm at the measuring temperatures. Above the Nb T c , the stripe-like Py stray field is visualized with half-period w Py =520 nm. Below the Nb T c , we have found that in a zero applied field, the supercurrents established in the Nb layer completely screen the out-of-plane component of the Py stray field. However, when the samples are cooled in a uniform external magnetic field, vortices are formed in chain-like configurations along the stripes with the same polarity. By decreasing and reversing the applied field, for low intensities, we have found a rigidity of the vortex array that remains “frozen” in the configuration as determined after the first field cooling run. The observed symmetry is then broken for higher values of the applied field, when an antivortex “avalanche” enters the Ferromagnetic/Superconducting (FM/SC) system.
ISSN:1557-1939
1557-1947
DOI:10.1007/s10948-012-1644-8