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623 results on '"Temst, K."'

1. Deposition and patterning of magnetic atom trap lattices in FePt films with periods down to 200nm

Author

La Rooij, A. L., Couet, S., van der Krogt, M. C., Vantomme, A., Temst, K., and Spreeuw, R. J. C.

Subjects
Physics - Atomic Physics, Quantum Physics
Abstract

We report on the epitaxial growth and the characterization of thin FePt films and the subsequent patterning of magnetic lattice structures. These structures can be used to trap ultracold atoms for quantum simulation experiments. We use Molecular Beam Epitaxy (MBE) to deposit monocrystalline FePt films with a thickness of 50 nm. The films are characterized with X-ray scattering and Mossbauer spectroscopy to determine the long range order parameter and the hard magnetic axes. A high monocrystalline fraction was measured as well as a strong remanent magnetization of M = 900 kA/m and coercivity of 0.4 T. Using Electron Beam Lithography (EBL) and argon ion milling we create lattice patterns with a period down to 200 nm, and a resolution of 30 nm. The resulting lattices are imaged in a Scanning Electron Microscope in cross-section created by a Focused Ion Beam. A lattice with continuously varying lattice constant ranging from 5 micrometer down to 250nm has been created to show the wide range of length scales that can now be created with this technique., Comment: 8 pages, 10 figures

Published
2018
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2. Dynamical properties of ordered Fe-Pt alloys

Author

Sternik, M., Couet, S., Łażewski, J., Jochym, P. T., Parlinski, K., Vantomme, A., Temst, K., and Piekarz, P.

Subjects
Condensed Matter - Materials Science
Abstract

The structure, magnetic properties, and lattice dynamics of ordered Fe-Pt alloys with three stoichiometric compositions, Fe$_3$Pt, FePt and FePt$_3$, have been investigated using the density functional theory. Additionally, the existing experimental data have been complemented by new measurements of the Fe projected phonon density of states performed for the Fe$_3$Pt and FePt$_3$ thin films using the nuclear inelastic scattering technique. The calculated phonon dispersion relations and phonon density of states have been compared with the experimental data. The dispersion curves are very well reproduced by the calculations, although, the softening of the transversal acoustic mode TA$_1$ leads to some discrepancy between the theory and experiment in Fe$_3$Pt. A very goood agreement between the measured spectra and calculations performed for the tetragonal structure derived from the soft mode may signal that the tetragonal phase with the space group $P4/mbm$ plays an important role in the martensitic transformation observed in Fe$_3$Pt. For FePt$_3$, the antiferromagnetic order appearing with decreasing temperature has been also investigated. The studies showed that the phonon density of states of FePt$_3$ very weakly depends on the magnetic configuration., Comment: 11 pages, 8 figures

Published
2015
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3. Size and mass of Cooper pairs determined by low-energy $\mu$SR and PNR

Author

Kozhevnikov, V., Suter, A., Fritzsche, H., Gladilin, V., Volodin, A., Cuppens, J., Prokscha, T., Morenzoni, E., Van Bael, M. J., Temst, K., Van Haesendonck, C., and Indekeu, J. O.

Subjects
Condensed Matter - Superconductivity
Abstract

The Pippard coherence length $\xi_0$ (the size of a Cooper pair) in an extreme type-I superconductor was determined directly through high-resolution measurement of the nonlocal electrodynamic effect combining low-energy muon spin rotation spectroscopy and polarized neutron reflectometry. The renormalization factor $Z$=m_cp*/2m (m_cp* and m are the mass of the Cooper pair and the electron, respectively) resulting from the electron-phonon interaction, and the temperature dependent London penetration depth $\lambda_L(T)$ were determined as well. A general expression linking $\xi_0$, $Z$ and $\lambda_L(0)$ is introduced and experimentally verified. This expression allows one to determine experimentally the Pippard coherence length in \textit{any} superconductor, independent of whether the electrodynamics is local or nonlocal, conventional or unconventional., Comment: 4 pages, 5 figures, 1 table

Published
2012

6. Evidence for nonmonotonic magnetic field penetration in a type-I superconductor

Author

Kozhevnikov, V. F., Giuraniuc, C. V., Van Bael, M. J., Temst, K., Van Haesendonck, C., Mishonov, T. M., Charlton, T., Dalgliesh, R. M., Khaidukov, Yu. N., Nikitenko, Yu. V., Aksenov, V. L., Gladilin, V. N., Fomin, V. M., Devreese, J. T., and Indekeu, J. O.

Subjects
Condensed Matter - Superconductivity
Abstract

Polarized neutron reflectometry (PNR) provides evidence that nonlocal electrodynamics governs the magnetic field penetration in an extreme low-k superconductor. The sample is an indium film with a large elastic mean free path (11 mkm) deposited on a silicon oxide wafer. It is shown that PNR can resolve the difference between the reflected neutron spin asymmetries predicted by the local and nonlocal theories of superconductivity. The experimental data support the nonlocal theory, which predicts a nonmonotonic decay of the magnetic field., Comment: 5 pages, 4 figures, LaTex, corrected typos and figures

Published
2007
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7. Surface Enhancement of Superconductivity in Tin

Author

Kozhevnikov, V. F., Van Bael, M. J., Vinckx, W., Temst, K., Van Haesendonck, C., and Indekeu, J. O.

Subjects
Condensed Matter - Superconductivity
Abstract

The possibility of surface enhancement of superconductivity is examined experimentally. It is shown that single crystal tin samples with cold-worked surfaces represent a superconductor with a surface-enhanced order parameter (or negative surface extrapolation length b), whose magnitude can be controlled., Comment: 8 pages, 4 figures

Published
2005
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8. Tailoring Fe/Ag Superparamagnetic Composites by Multilayer Deposition

Author

Balogh, J., Kaptás, D., Kiss, L. F., Pusztai, T., Szilágyi, E., Tunyogi, Á., Swerts, J., Vandezande, S., Temst, K., and Van Haesendonck, C.

Subjects
Condensed Matter - Materials Science
Abstract

The magnetic properties of Fe/Ag granular multilayers were examined by SQUID magnetization and Mossbauer spectroscopy measurements. Very thin (0.2 nm) discontinuous Fe layers show superparamagnetic properties that can be tailored by the thickness of both the magnetic and the spacer layers. The role of magnetic interactions was studied in novel heterostructures of superparamagnetic and ferromagnetic layers and the specific contribution of the ferromagnetic layers to the low field magnetic susceptibility was identified., Comment: 5 pages and 3 figures

Published
2005
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9. Electron interaction with domain walls in antiferromagnetically coupled multilayers

Author

Aliev, F. G., Schad, R., Volodin, A., Temst, K., Van Haesendonck, C., Bruynseraede, Y., Vavra, I., Dugaev, V. K., and Villar, R.

Subjects
Condensed Matter - Materials Science
Abstract

For antiferromagnetically coupled Fe/Cr multilayers the low field contribution to the resistivity, which is caused by the domain walls, is strongly enhanced at low temperatures. The low temperature resistivity varies according to a power law with the exponent about 0.7 to 1. This behavior can not be explained assuming ballistic electron transport through the domain walls. It is necessary to invoke the suppression of anti-localization effects (positive quantum correction to conductivity) by the nonuniform gauge fields caused by the domain walls., Comment: 5 pages with 3 figures

Published
2003
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10. Asymmetric flux pinning in laterally nanostructured ferromagnetic / superconducting bilayers

Author

Lange, M., Van Bael, M. J., Van Look, L., Temst, K., Swerts, J., Guentherodt, G., Moshchalkov, V. V., and Bruynseraede, Y.

Subjects
Condensed Matter - Superconductivity
Abstract

We investigated the pinning of flux lines in a superconducting film by a regular array of magnetic antidots. The sample consists of a Co/Pt multilayer with perpendicular magnetic anisotropy in which a regular pattern of submicron holes is introduced and which is covered by a type-II superconducting Pb film. The resulting ferromagnetic/superconducting heterostructure shows a pronounced asymmetric magnetization curve with respect to the field polarity. This asymmetry clearly demonstrates that the magnetic contribution dominates the pinning potential imposed by the magnetic antidots on the superconducting film., Comment: 7 pages, 6 figures, including erratum with 1 page, 1 figure

Published
2000
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11. Impurity spin magnetization of thin Fe doped Au films

Author

Seynaeve, E., Temst, K., Aliev, F. G., Van Haesendonck, C., Gladilin, V. N., Fomin, V. M., and Devreese, J. T.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In order to probe the influence of the surface-induced anisotropy on the impurity spin magnetization, we measure the anomalous Hall effect in thin AuFe films at magnetic fields up to 15 T. The observed suppression of the anomalous Hall resistivity at low fields as well as the appearance of a minimum in the differential Hall resistivity at higher fields can be explained by our theoretical model which takes into account the influence of a polycrystalline film structure on the surface-induced anisotropy. Our results imply that the apparent discrepancy between different experimental results for the size effects in dilute magnetic alloys can be linked to a different microstructure of the samples., Comment: 4 pages, 3 figures, E-mail addresses: devreese@uia.ua.ac.be, fomin@uia.ua.ac.be

Published
2000
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12. Magnetic properties of submicron Co islands and their use as artificial pinning centers

Author

Van Bael, M. J., Temst, K., Moshchalkov, V. V., and Bruynseraede, Y.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report on the magnetic properties of elongated submicron magnetic islands and their influence on a superconducting film. The magnetic properties were studied by magnetization hysteresis loop measurements and scanning-force microscopy. In the as-grown state, the islands have a magnetic structure consisting of two antiparallel domains. This stable domain configuration has been directly visualized as a 2x2-checkerboard pattern by magnetic-force microscopy. In the remanent state, after magnetic saturation along the easy axis, all islands have a single-domain structure with the magnetic moment oriented along the magnetizing field direction. Periodic lattices of these Co islands act as efficient artificial pinning arrays for the flux lines in a superconducting Pb film deposited on top of the Co islands. The influence of the magnetic state of the dots on their pinning efficiency is investigated in these films, before and after the Co dots are magnetized., Comment: 6 pages including figures

Published
1999
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13. Flux pinning by regular arrays of ferromagnetic dots

Author

Van Bael, M. J., Van Look, L., Temst, K., Lange, M., Bekaert, J., May, U., Guentherodt, G., Moshchalkov, V. V., and Bruynseraede, Y.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The pinning of flux lines by two different types of regular arrays of submicron magnetic dots is studied in superconducting Pb films; rectangular Co dots with in-plane magnetization are used as pinning centers to investigate the influence of the magnetic stray field of the dots on the pinning phenomena, whereas multilayered Co/Pt dots with out-of-plane magnetization are used to study the magnetic interaction between the flux lines and the magnetic moment of the dots. For both types of pinning arrays, matching anomalies are observed in the magnetization curves versus perpendicular applied field at integer and rational multiples of the first matching field, which correspond to stable flux configurations in the artificially created pinning potential. By varying the magnetic domain structure of the Co dots with in-plane magnetization, a clear influence of the stray field of the dots on the pinning efficiency is found. For the Co/Pt dots with out-of-plane magnetization, a pronounced field asymmetry is observed in the magnetization curves when the dots are magnetized in a perpendicular field prior to the measurement. This asymmetry can be attributed to the interaction of the out-of-plane magnetic moment of the Co/Pt dots with the local field of the flux lines and indicates that flux pinning is stronger when the magnetic moment of the dot and the field of the flux line have the same polarity., Comment: 7 pages including figures; submitted for publication in Physica C (Proceedings ESF-Vortex Conference, 18-24 Sept. 1999, Crete, Greece)

Published
1999
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14. Flux pinning in a superconducting film by a regular array of magnetic dots

Author

Van Look, L., Van Bael, M. J., Temst, K., Rodrigo, J. G., Morelle, M., Moshchalkov, V. V., and Bruynseraede, Y.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We have studied flux pinning in thin superconducting Pb films covering a triangular array of submicron magnetic Au/Co/Au dots with in-plane magnetization. The rectangular dots can have two possible in-plane magnetic states: a single-domain state where the magnetization lies along the long axis of the dot and a multi-domain state. In this paper, we report on measurements of the field dependence of the critical current Ic(B) of the superconducting Pb film evaporated on top of this magnetic array. We observe a clear influence of the magnetic state of the dots on the pinning properties of the magnetic array, showing that there is an important pinning contribution due to the stray fields of the magnetic dots., Comment: 4 pages including figures; Conference Proceedings of the ESF-Vortex Conference (18-24 Sept. 1999), Crete, Greece

Published
1999
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15. Shapiro steps in a superconducting film with an antidot lattice

Author

Van Look, L., Rosseel, E., Van Bael, M. J., Temst, K., Moshchalkov, V. V., and Bruynseraede, Y.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Shapiro voltage steps at voltages V_n=nV_0 (n integer) have been observed in the voltage-current characteristics of a superconducting film with a square lattice of perforating microholes (antidots)in the presence of radiofrequent radiation. These equidistant steps appear at the second matching field H_2 when the flow of the interstitial vortex lattice in the periodic potential created by the antidots and the vortices trapped by them, is in phase with the applied rf frequency. Therefore, the observation of Shapiro steps clearly reveals the presence of mobile intersitial vortices in superconducting films with regular pinning arrays. The interstitial vortices, moved by the driving current, coexist with immobile vortices strongly pinned at the antidots., Comment: 6 pages text, 3 EPS figures, RevTeX, accepted for publication in PRB Rapid Communications

Published
1999
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25. Deposition and patterning of magnetic atom trap lattices in FePt films with periods down to 200 nm.

Author

La Rooij, A. L., Couet, S., van der Krogt, M. C., Vantomme, A., Temst, K., and Spreeuw, R. J. C.

Subjects
EPITAXY, X-ray scattering, ATOM trapping, CRYSTAL lattices, MOSSBAUER spectroscopy, ELECTRON beam lithography
Abstract

We report on the epitaxial growth and the characterization of thin FePt films and the subsequent patterning of magnetic lattice structures. These structures can be used to trap ultracold atoms for quantum simulation experiments. We use molecular beam epitaxy to deposit monocrystalline FePt films with a thickness of 50 nm. The films are characterized with X-ray scattering and Mössbauer spectroscopy to determine the long range order parameter and the hard magnetic axes. A high monocrystalline fraction was measured as well as a strong remanent magnetization of M = 900 kA/m and coercivity of 0.4 T. Using electron beam lithography and argon ion milling, we create lattice patterns with a period down to 200 nm, and a resolution of 30 nm. The resulting lattices are imaged in a scanning electron microscope in the cross-section created by a focused ion beam. A lattice with continuously varying lattice constant ranging from 5 μm down to 250 nm has been created to show the wide range of length scales that can now be created with this technique. [ABSTRACT FROM AUTHOR]

Published
2018
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30. Observation of Co/CoO nanoparticles below the critical size for exchange bias

Author

Dobrynin, A. N., Temst, K., Lievens, P., Margueritat, J., Gonzalo, J., Afonso, C.N., Piscopiello, E., and Van Tendeloo, G.

Subjects
Nanoparticles -- Research, Nanoparticles -- Magnetic properties, Physics
Abstract

The magnetic properties of pure and oxidized Co nanoparticles embedded in an amorphous [Al.sub.2][O.sub.3] matrix are compared. It provides the evidence for the formation of antiferromagnetic CoO shells in the nanoparticles.

Published
2007

37. Magnetic domains and flux pinning properties of a nanostructured ferromagnet/superconductor bilayer

Author

Van Bael, M.J., Raedts, S., Temst, K., Swerts, J., Moshchalkov, V.V., and Bruynseraede, Y.

Subjects
Carbon monoxide -- Electric properties, Ferromagnetism -- Analysis, Superconductivity -- Analysis, Physics
Abstract

The magnetic and superconducting properties of a naostructured ferromagnet/superconductor hybrid system, consisting of a Co layer with a square array of rectangular holes (antidots), covered with a thin continuous (nonperforated) superconducting Pb layer are investigated. The Co film with an antidot lattice shows a strong in-plane magnetic shape anisotropy determined by the array configuration and the rectangular shape of the antidot lattice.

Published
2002

38. Transition from a single-domain to a multidomain state in mesoscopic ferromagnetic Co structures

Author

Seynaeve, E., Bruynseraede, Y., Rens, G., Volodin, A.V., Temst, K., and Van Haesendonck, C.

Subjects
Cobalt -- Magnetic properties, Magnetic fields -- Research, Ferromagnetism -- Research, Physics
Abstract

A systematic study of the single-domain to multidomain transition for small rectangular Co structures using magnetic force microscopy (MFM) is presented. The findings indicate that the transition depends on the size as well as the aspect ratio of the structures.

Published
2001

39. Interface morphology of a Cr(001)/Fe(001) superlattice determined by scanning tunneling microscopy and x-ray diffraction: a comparison

Author

Schmidt, C.M., Temst, K., Burgler, D.E., Schaller, D.M., Meisinger, F., and Guntherodt, H.-J.

Subjects
Scanning tunneling microscopy -- Usage, Epitaxy -- Research, Iron compounds -- Magnetic properties, Chromium -- Magnetic properties, Physics
Abstract

A Cr(001)/Fe(001) superlattice with ten bilayers grown by molecular beam epitaxy on a Ag(001) substrate is studied by in situ scanning tunneling microscopy (STM) and ex situ x-ray diffraction (XRD). The possible differences between the STM topography of a free surface and the morphology of a subsequently formed interface are discussed.

Published
2001

40. Ion beam modification of the Ni-Si solid-phase reaction: The influence of substrate damage and nitrogen impurities introduced by ion implantation

Author

van Stiphout, K, primary, Geenen, F A, additional, Santos, N M, additional, Miranda, S M C, additional, Joly, V, additional, Demeulemeester, J, additional, Mocuta, C, additional, Comrie, C M, additional, Detavernier, C, additional, Pereira, L M C, additional, Temst, K, additional, and Vantomme, A, additional

Published
2020
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43. Enhanced Magnetoelectric Coupling in BaTiO3-BiFeO3 Multilayers

Author

Hohenberger, S., Jochum, J.K., Bael, M.J. Van, Temst, K., Patzig, C., Höche, T., Grundmann, M., Lorenz, M., and Publica

Abstract

Combining various (multi-)ferroic materials into heterostructures is a promising route to enhance their inherent properties, such as the magnetoelectric coupling in BiFeO3 thin films. We have previously reported on the up-to-tenfold increase of the magnetoelectric voltage coefficient aME in BaTiO3-BiFeO3 multilayers relative to BiFeO3 single layers. Unraveling the origin and mechanism of this enhanced effect is a prerequisite to designing new materials for the application of magnetoelectric devices. By careful variations in the multilayer design we now present an evaluation of the influences of the BaTiO3-BiFeO3 thickness ratio, oxygen pressure during deposition, and double layer thickness. Our findings suggest an interface driven effect at the core of the magnetoelectric coupling effect in our multilayers superimposed on the inherent magnetoelectric coupling of BiFeO3 thin films, which leads to a giant aME coefficient of 480 Vcm−1Oe−1 for a 16×(BaTiO3-BiFeO3) superlattice with a 4.8nm double layer periodicity.

Published
2020

45. Thermal stability of interstitial and substitutional Mn in ferromagnetic (Ga,Mn)As

Author

Lima, T. A. L., Wahl, U., Costa, A., Augustyns, V., Edmonds, K. W., Gallagher, B. L., Campion, R. P., Correia, J. G., da Silva, M. R., Temst, K., Vantomme, A., and Pereira, L. M. C.

Abstract

© 2019 American Physical Society. In (Ga,Mn)As, a model dilute magnetic semiconductor, the electric and magnetic properties are strongly influenced by the lattice sites occupied by the Mn atoms. In particular, the highest Curie temperatures are achieved upon thermal annealing in a narrow temperature window around 200°C, by promoting the diffusion of interstitial Mn towards the surface. In this work, we determined the thermal stability of both interstitial and substitutional Mn in ferromagnetic (Ga,Mn)As thin films, using the emission channeling technique. At a higher Mn concentration, the temperatures at which substitutional and interstitial Mn become mobile not only decrease, but also become closer to each other. These findings advance our understanding of self-compensation in (Ga,Mn)As by showing that the strong dependence of the Curie temperature on annealing temperature around 200°C is a consequence of balance between diffusion of interstitial Mn and segregation of substitutional Mn.

Published
2019

46. Thermal stability and relaxation mechanisms in compressively strained Ge0.94Sn0.06 thin films grown by molecular beam epitaxy.

Author

Fleischmann, C., Lieten, R. R., Hermann, P., Hönicke, P., Beckhoff, B., Seidel, F., Richard, O., Bender, H., Shimura, Y., Zaima, S., Uchida, N., Temst, K., Vandervorst, W., and Vantomme, A.

Subjects
THERMAL stability, THERMAL properties, ELECTRIC properties of thin films, MOLECULAR beams, LIGHT emitting diodes
Abstract

Strained Ge1-xSnx thin films have recently attracted a lot of attention as promising high mobility or light emitting materials for future micro- and optoelectronic devices. While they can be grown nowadays with high crystal quality, the mechanism by which strain energy is relieved upon thermal treatments remains speculative. To this end, we investigated the evolution (and the interplay) of composition, strain, and morphology of strained Ge0.94Sn0.06 films with temperature. We observed a diffusion-driven formation of Sn-enriched islands (and their self-organization) as well as surface depressions (pits), resulting in phase separation and (local) reduction in strain energy, respectively. Remarkably, these compositional and morphological instabilities were found to be the dominating mechanisms to relieve energy, implying that the relaxation via misfit generation and propagation is not intrinsic to compressively strained Ge0.94Sn0.06 films grown by molecular beam epitaxy. [ABSTRACT FROM AUTHOR]

Published
2016
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