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34 results on '"Alvarez-Prado, L. M."'

1. Morphology and Magnetic vortex chiral symmetry of 2D arrays of magnetic trilayer disks with magnetostatic interlayer coupling determined by X ray resonant magnetic scattering

Author

Díaz, J., Álvarez-Prado, L. M., Valvidares, S. M., Montoya, I., Redondo, C., Morales, R., and Vélez, M.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

X ray resonant magnetic scattering (XRMS) was used to characterize the magnetization of 2D arrays of trilayer submicron magnets. The interpretation of the data required the understanding of the morphology of the magnets which was also deduced from the scattered intensity. The magnets consisted of two magnetostatically coupled ferromagnetic layers separated by a non-magnetic spacer. The scattered intensity from the disks resulted to be dependent on the disks surface curvature. This made the collected intensity at each Bragg reflection (BR) to be correlated to the reflected light from locations of the disk with the same angle of curvature. Due to this, quantitative information was obtained, averaged over the disks illuminated by x rays, of the variations in thickness and magnetization across the entire area of the disks. This averaged magnetization mapping of the disks served to study their vortex configuration in each of their magnetic layers, determining the average location of the vortex, the chiral symmetry of its magnetic circulation, and the specific locations where the vortex nucleation starts within the disks. Chiral asymmetry appeared in the disks when the field was oriented at an oblique angle with respect to the easy axis of the array. The local magnetic sensitivity of the technique allowed to identify a non-centrosymmetric distribution of the magnetization of the disks that explains the observed chiral asymmetry. Unexpectedly, the magnetic circulation sense of the vortex was the same in both ferromagnetic layers. In addition, the magnetization of the buried layer was different in the descent branch than in the ascent branch of its hysteresis loops., Comment: 13 pages, 16 figures

Published
2023

2. Adjustable 3D magnetic configuration in ferrimagnetic multilayers with competing interactions visualized by soft X-ray vector tomography

Author

Hermosa-Muñoz, J., Hierro-Rodríguez, A., Sorrentino, A., Martín, J. I., Alvarez-Prado, L. M., Rehbein, S., Pereiro, E., Quirós, C., Vélez, M., and Ferrer, S.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Soft X-ray magnetic vector tomography has been used to visualize with unprecedented detail and solely from experimental data the 3D magnetic configuration of a ferrimagnetic Gd12Co88/Nd17Co83/Gd24Co76 multilayer with competing anisotropy, exchange and magnetostatic interactions at different depths. The trilayer displays magnetic stripe domains, arranged in a chevron pattern, which are imprinted from the central Nd17Co83 into the bottom Gd12Co88 layer with a distorted closure domain structure across the thickness. Near the top Gd24Co76 layer, local exchange springs with out-of-plane magnetization reversal, modulated ripple patterns and magnetic vortices and antivortices across the thickness are observed. The detailed analysis of the magnetic tomogram shows that the effective strength of the exchange spring at the NdCo/GdCo interface can be finely tuned by GdxCo1-x composition and anisotropy (determined by sample fabrication) and in-plane stripe orientation (adjustable), demonstrating the capability of 3D magnetic visualization techniques in magnetic engineering research., Comment: 23 pages, 7 figures

Published
2021

3. Chiral asymmetry detected in a 2D array of permalloy square nanomagnets using circularly polarized X ray Resonant Magnetic Scattering

Author

Díaz, J., Gargiani, P., Quirós, C., Redondo, C., Morales, R., Álvarez-Prado, L. M., Martín, J. I., Scholl, A., Ferrer, S., Vélez, M., and Valvidares, S. M.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The sensitivity of Circularly polarized X ray Resonant Magnetic Scattering (CXRMS) to chiral asymmetry has been demonstrated. The study was performed on a 2D array of Permalloy (Py) square nanomagnets of 700 nm lateral size arranged in a chess lattice of 1000 nm lattice parameter. Previous X ray Magnetic Circular Dichroism Photoemission Electron microscopy (XMCD-PEEM) images on this sample showed the formation of vortices at remanence and a preference in their chiral state. The magnetic hysteresis loops of the array along the diagonal axis of the squares indicate a non-negligible and anisotropic interaction between vortices. The intensity of the magnetic scattering using circularly polarized light along one of the diagonal axes of the square magnets becomes asymmetric in intensity in the direction transversal to the incident plane at fields where the vortex states are formed. The asymmetry sign is inverted when the direction of the applied magnetic field is inverted. The result is the expected in the presence of an unbalanced chiral distribution. The effect is observed by CXRMS due to the interference between the charge scattering and the magnetic scattering., Comment: The new revised version corrected some grammatical and orthographic mistakes like "cero" instead of zero and "core vortex" instead of vortex core. Bibliographic entries were modified to have all the same format

Published
2019
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4. Revealing 3D Magnetization of Thin Films with Soft X-ray Tomography: Closure Domains and Magnetic Singularities

Author

Hierro-Rodriguez, A., Quirós, C., Sorrentino, A., Alvarez-Prado, L. M., Martín, J. I., Alameda, J. M., McVitie, S., Pereiro, E., Vélez, M., and Ferrer, S.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

The knowledge of how the magnetization looks inside a ferromagnet is often hindered by the limitations of the available experimental methods that are sensitive only to the surface regions or limited in spatial resolution. We report the 3D tomographic reconstruction of the magnetization within a ferromagnetic film of 240 nm in thickness using soft X ray microscopy and magnetic dichroism. The film has periodic magnetic domains forming stripes and closure domains found to be shifted from the stripe array by 1/4 of the period. In addition, the bifurcations of the stripes, which act as inversion nuclei of the magnetization, evidence in 3D meron singularities and Bloch points at the interior of the film. This novel method can be easily extended to magnetic stacks in spintronics applications and other singularities in films., Comment: 13 pages, 4 figures

Published
2019

5. Magnetic order and disorder in nanomagnets probed by superconducting vortices

Author

Rollano, V., del Valle, J., Gomez, A., Velez, M., Alvarez-Prado, L. M., Quiros, C., Martin, J. I., Osorio, M. R., Granados, D., Gonzalez, E. M., and Vicent, J. L.

Subjects
Condensed Matter - Superconductivity
Abstract

We have studied two nanomagnet systems with strong (Co/Pd multilayers) and weak (NdCo alloy films) stray magnetic fields by probing the out-of-plane magnetic states with superconducting vortices. The hybrid samples are made of array of nanomagnets embedded in superconducting Nb thin films. The vortex motion detects relevant magnetic state features, since superconducting vortices are able to discriminate between different magnetic stray field strengths and directions. The usual matching effect between the superconducting vortex lattice and the periodic pinning array can be quenched by means of disorder magnetic potentials with strong stray fields at random. Ordered stray fields retrieve the matching effect and yield asymmetry and shift in the vortex dissipation signal. Furthermore vortices can discriminate the sizes of the nanomagnet magnetic domains, detecting magnetic domain sizes as small as 70 nm. In addition, we observe that the vortex cores play the crucial role instead of the supercurrents around the vortex., Comment: 22 pages, 8 figures

Published
2018
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6. Controlled nucleation of topological defects in the stripe domain patterns of Lateral multilayers with Perpendicular Magnetic Anisotropy: competition between magnetostatic, exchange and misfit interactions

Author

Hierro-Rodriguez, A., Velez, M., Morales, R., Soriano, N., Rodriguez-Rodriguez, G., Alvarez-Prado, L. M., Martin, J. I., and Alameda, J. M.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Magnetic lateral multilayers have been fabricated on weak perpendicular magnetic anisotropy amorphous Nd-Co films in order to perform a systematic study on the conditions for controlled nucleation of topological defects within their magnetic stripe domain pattern. A lateral thickness modulation of period $w$ is defined on the nanostructured samples that, in turn, induces a lateral modulation of both magnetic stripe domain periods $\lambda$ and average in-plane magnetization component $M_{inplane}$. Depending on lateral multilayer period and in-plane applied field, thin and thick regions switch independently during in-plane magnetization reversal and domain walls are created within the in-plane magnetization configuration coupled to variable angle grain boundaries and disclinations within the magnetic stripe domain patterns. This process is mainly driven by the competition between rotatable anisotropy (that couples the magnetic stripe pattern to in-plane magnetization) and in-plane shape anisotropy induced by the periodic thickness modulation. However, as the structural period $w$ becomes comparable to magnetic stripe period $\lambda$, the nucleation of topological defects at the interfaces between thin and thick regions is hindered by a size effect and stripe domains in the different thickness regions become strongly coupled., Comment: 10 pages, 7 figures, submitted to Physical Review B

Published
2013
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7. Double percolation effects and fractal behavior in magnetic/superconducting hybrids

Author

Ruiz-Valdepeñas, L., Velez, M., Valdes-Bango, F., Alvarez-Prado, L. M., Martin, J. I., Navarro, E., Alameda, J. M., and Vicent, J. L.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Disordered Systems and Neural Networks
Abstract

Perpendicular magnetic anisotropy ferromagnetic/ superconducting (FM/SC) bilayers with a labyrinth domain structure are used to study nucleation of superconductivity on a fractal network, tunable through magnetic history. As clusters of reversed domains appear in the FM layer, the SC film shows a percolative behavior that depends on two independent processes: the arrangement of initial reversed domains and the fractal geometry of expanding clusters. For a full labyrinth structure, the behavior of the upper critical field is typical of confined superconductivity on a fractal network., Comment: 15 pages, 5 figures

Published
2013
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8. Topological defects and misfit strain in magnetic stripe domains of lateral multilayers with perpendicular magnetic anisotropy

Author

Hierro-Rodriguez, A., Cid, R., Vélez, M., Rodriguez-Rodriguez, G., Martín, J. I., Álvarez-Prado, L. M., and Alameda, J. M.

Subjects
Condensed Matter - Materials Science
Abstract

Stripe domains are studied in perpendicular magnetic anisotropy films nanostructured with a periodic thickness modulation that induces the lateral modulation of both stripe periods and inplane magnetization. The resulting system is the 2D equivalent of a strained superlattice with properties controlled by interfacial misfit strain within the magnetic stripe structure and shape anisotropy. This allows us to observe, experimentally for the first time, the continuous structural transformation of a grain boundary in this 2D magnetic crystal in the whole angular range. The magnetization reversal process can be tailored through the effect of misfit strain due to the coupling between disclinations in the magnetic stripe pattern and domain walls in the in-plane magnetization configuration.

Published
2012
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9. Crossed ratchet effects for magnetic domain wall motion

Author

Perez-Junquera, A., Marconi, V. I., Kolton, A. B., Alvarez-Prado, L. M., Souche, Y., Alija, A., Velez, M., Anguita, J. V., Alameda, J. M., Martin, J. I., and Parrondo, J. M. R.

Subjects
Condensed Matter - Materials Science
Abstract

We study both experimentally and theoretically the driven motion of domain walls in extended amorphous magnetic films patterned with a periodic array of asymmetric holes. We find two crossed ratchet effects of opposite sign that change the preferred sense for domain wall propagation, depending on whether a flat or a kinked wall is moving. By solving numerically a simple $\phi^4$-model we show that the essential physical ingredients for this effect are quite generic and could be realized in other experimental systems involving elastic interfaces moving in multidimensional ratchet potentials., Comment: 4 pages, 4 figures, submitted to PRL

Published
2007
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12. Imprinted labyrinths and percolation in Nd-Co/Nb magnetic/superconducting hybrids.

Author

Ruiz-Valdepeñas, L., Velez, M., Valdés-Bango, F., Alvarez-Prado, L. M., Garcia-Alonso, F. J., Martin, J. I., Navarro, E., Alameda, J. M., and Vicent, J. L.

Subjects
MAGNETIZATION, SUPERCONDUCTIVITY, LABYRINTHS, PERCOLATION, MAGNETIC hysteresis, COPOLYMERS, SUPERCONDUCTORS, NUCLEATION
Abstract

Magnetization reversal processes have been studied in hybrid magnetic/superconducting Nd-Co/Nb bilayers by the comparison of out-of-plane magnetic hysteresis loops and superconducting phase diagrams as a function of magnetic layer thickness and of disorder in the magnetic layer induced by a nanostructured copolymer template. A good correlation is found between the regimes corresponding to percolation effects in the superconductor and to the transition from extended to confined superconductivity with the characteristic fields for reverse domain nucleation and fast domain expansion in the magnetic layer, indicating that superconductivity nucleates on the disordered network imprinted on the superconducting layer by the labyrinth domain structure of the magnetic layer. As disorder increases in the magnetic layer, percolation effects disappear from the superconducting transitions in agreement with a more homogeneous magnetization reversal process. [ABSTRACT FROM AUTHOR]

Published
2014
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19. Magnetic stripes and holes: Complex domain patterns in perforated films with weak perpendicular anisotropy.

Author

Valdés-Bango, F., Vélez, M., Alvarez-Prado, L. M., Alameda, J. M., and Martín, J. I.

Subjects
CRYSTALLOGRAPHY, ANISOTROPY
Abstract

Hexagonal antidot arrays have been patterned on weak perpendicular magnetic anisotropy NdCo films by e-beam lithography and lift off. Domain structure has been characterized by Magnetic Force Microscopy at remanence. On a local length scale, of the order of stripe pattern period, domain configuration is controlled by edge effects within the stripe pattern: stripe domains meet the hole boundary at either perpendicular or parallel orientation. On a longer length scale, in-plane magnetostatic effects dominate the system: clear superdomains are observed in the patterned film with average in-plane magnetization along the easy directions of the antidot array, correlated over several antidot array cells. [ABSTRACT FROM AUTHOR]

Published
2017
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29. Coupling of YCo2thin films in a macroscopic ferrimagnet

Author

Salas, F. H., Alameda, J. M., Morales, R., Alvarez-Prado, L. M., Pérez, G. T., Salas, F. H., Alameda, J. M., Morales, R., Alvarez-Prado, L. M., and Pérez, G. T.

Abstract

We study here the behavior of YCo2thin films when they are decoupled or when they are 3d-coupled in a macroscopic ferrimagnet (MF). The latter consists of YCo2/GdCo2/YCo2, the thickness of each layer (100 nm) being higher than the optical penetration depth. Such a study was done by means of the transverse magneto optic Kerr effect (TMOKE) hysteresis loops and their evolution upon applying a dc field perpendicularly to the easy axis of magnetization. We observe clear differences between magnetically decoupled layers and layers coupled in the MF. The latter case may be understood taken into account that the exchange interaction in the MF is controlled by the existence of a Bloch-type domain wall extending through the layered system.

Published
1998
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30. Amorphous to polycrystalline transition in CoSialloy thin films.

Author

Vélez, M., Mény, C., Valvidares, S. M., Diaz, J., Morales, R., Alvarez-Prado, L. M., Panissod, P., and Alameda, J. M.

Subjects
POLYCRYSTALS, ALLOYS, THIN films, NUCLEAR magnetic resonance, ANISOTROPY
Abstract

The transition from amorphous to polycrystalline microstructure has been studied in sputtered CoxSi1-x alloy films by structural, magneto-optical and Nuclear Magnetic Resonance measurements. For, Si is diluted into Co without significantly altering the polycrystalline microstructure, composed of a mixture of hcp and fcc grains. However, the fraction of Co atoms that contribute to the Nuclear Magnetic Resonance signal is found to decrease steeply (down to about 60atx= 0.76) suggesting a microscopic segregation of a Si rich phase that induces a large degree of disorder. This is reflected in a harder magnetic behavior and a strong anisotropy dispersion. Belowx= 0.75, the transition to an amorphous microstructure results in a sudden increase in the fraction of Co atoms within a ferromagnetic phase, indicating the recovery of the microscopic homogeneity. Also a significant enhancement of the macroscopic magnetic anisotropy is found for amorphous films with compositions right below the transition. Within the amorphous phase a second regime of Si segregation appears characterized by a constant Co local environment and constant magnetic properties. Finally, forx= 0.65 there is a significant Si enrichment in the Co environment and the films become non magnetic for compositions below this point. [ABSTRACT FROM AUTHOR]

Published
2004
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34. Crossed-ratchet effects for magnetic domain wall motion.

Author

Pérez-Junquera A, Marconi VI, Kolton AB, Alvarez-Prado LM, Souche Y, Alija A, Vélez M, Anguita JV, Alameda JM, Martín JI, and Parrondo JM

Abstract

We study both experimentally and theoretically the driven motion of domain walls in extended amorphous magnetic films patterned with a periodic array of asymmetric holes. We find two crossed-ratchet effects of opposite sign that change the preferred sense for domain wall propagation, depending on whether a flat or a kinked wall is moving. By solving numerically a simple phi(4) model we show that the essential physical ingredients for this effect are quite generic and could be realized in other experimental systems involving elastic interfaces moving in multidimensional ratchet potentials.

Published
2008
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