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1. Anisotropic long-range spin transport in canted antiferromagnetic orthoferrite YFeO$_3$

Author

Das, Shubhankar, Ross, A., Ma, X. X., Becker, S., Schmitt, C., van Duijn, F., Fuhrmann, F., Syskaki, M. -A., Ebels, U., Baltz, V., Barra, A. -L., Chen, H. Y., Jakob, G., Cao, S. X., Sinova, J., Gomonay, O., Lebrun, R., and Kläui, M.

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In antiferromagnets, the efficient propagation of spin-waves has until now only been observed in the insulating antiferromagnet hematite, where circularly (or a superposition of pairs of linearly) polarized spin-waves propagate over long distances. Here, we report long-distance spin-transport in the antiferromagnetic orthoferrite YFeO$_3$, where a different transport mechanism is enabled by the combined presence of the Dzyaloshinskii-Moriya interaction and externally applied fields. The magnon decay length is shown to exceed hundreds of nano-meters, in line with resonance measurements that highlight the low magnetic damping. We observe a strong anisotropy in the magnon decay lengths that we can attribute to the role of the magnon group velocity in the propagation of spin-waves in antiferromagnets. This unique mode of transport identified in YFeO$_3$ opens up the possibility of a large and technologically relevant class of materials, i.e., canted antiferromagnets, for long-distance spin transport., Comment: Manuscript - 24 pages and 4 figures, Supplementary - 22 pages and 10 figures

Published
2021
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2. Penetration depth of Cooper pairs in the IrMn antiferromagnet

Author

Seeger, R. L., Forestier, G., Gladii, O., Leiviskä, M., Auffret, S., Joumard, I., Gomez, C., Rubio-Roy, M., Buzdin, A. I., Houzet, M., and Baltz, V.

Subjects
Condensed Matter - Materials Science
Abstract

Suppression of superconductivity due to the proximity effect between a superconductor and a ferromagnet can be partially alleviated when a Cooper pair simultaneously samples different directions of the short-range exchange field. The superconductor's critical temperature, TC, is therefore expected to partially recover when the ferromagnet is in a multi-domain state, as opposed to a single-domain state. Here, we discuss series of experiments performed with ferromagnet(Pt/Co)/spacer(IrMn and Pt)/superconductor(NbN) heterostructures. By tuning the various parameters in play, e.g., superconducting coherence length-to-thicknesses ratio, and domain sizes, we obtained up to 10 percent recovery of the superconducting critical temperature {\Delta}TC/TC. This large-scale recovery made novel investigations possible. In particular, from the spacer thickness-dependence of {\Delta}TC/TC, it was possible to deduce the characteristic length for Cooper pair penetration in an IrMn antiferromagnet. This information is crucial for electronic transport, and up to now has been difficult to access experimentally for antiferromagnets.

Published
2021
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3. Self-induced inverse spin Hall effect in ferromagnets: demonstration through non-monotonous temperature-dependence in permalloy

Author

Gladii, O., Frangou, L., Hallal, A., Seeger, R. L., Noel, P., Forestier, G., Auffret, S., Rubio-Roy, M., Warin, P., Vila, L., Wimmer, S., Ebert, H., Gambarelli, S., Chshiev, M., and Baltz, V.

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

We investigated the self-induced inverse spin Hall effect in ferromagnets. Temperature (T), thickness (t) and angular-dependent measurements of transverse voltage in spin pumping experiments were performed with permalloy films. Results revealed non-monotonous T-dependence of the self-induced transverse voltage. Qualitative agreement was found with first-principle calculations unravelling the skew scattering, side-jump, and intrinsic contributions to the T-dependent spin Hall conductivity. Experimental data were similar whatever the material in contact with permalloy (oxides or metals), and revealed an increase of produced current with t, demonstrating a bulk origin of the effect.

Published
2019
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4. Stacking order-dependent sign-change of microwave phase due to eddy currents in nanometer-scale NiFe/Cu heterostructures

Author

Gladii, O., Seeger, R. L., Frangou, L., Forestier, G., Ebels, U., Auffret, S., and Baltz, V.

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

In the field of spintronics, ferromagnetic/non-magnetic metallic multilayers are core building blocks for emerging technologies. Resonance experiments using stripline transducers are commonly used to characterize and engineer these stacks for applications. Up to now in these experiments, the influence of eddy currents on the excitation of the dynamics of ferromagnetic magnetization below the skin-depth limit was most often neglected. Here, using a coplanar stripline transducer, we experimentally investigated the broadband ferromagnetic resonance response of NiFe/Cu bilayers a few nanometers thick in the sub-skin-depth regime. Asymmetry in the absorption spectrum gradually built up as the excitation frequency and Cu-layer thickness increased. Most significantly, the sign of the asymmetry depended on the stacking order. Experimental data were consistent with a quantitative analysis considering eddy currents generated in the Cu layers and the subsequent phaseshift of the feedback magnetic field generated by the eddy currents. These results extend our understanding of the impact of eddy currents below the microwave magnetic skin-depth and explain the lineshape asymmetry and phase lags reported in stripline experiments.

Published
2019
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5. Spin pumping as a generic probe for linear spin fluctuations: demonstration with ferromagnetic and antiferromagnetic orders, metallic and insulating electrical states

Author

Gladii, O., Frangou, L., Forestier, G., Seeger, R. L., Auffret, S., Rubio-Roy, M., Weil, R., Mougin, A., Gomez, C., Jahjah, W., Jay, J. -P., Dekadjevi, D., Spenato, D., Gambarelli, S., and Baltz, V.

Subjects
Condensed Matter - Materials Science
Abstract

We investigated spin injection by spin pumping from a spin-injector(NiFe) into a spin-sink to detect spin fluctuations in the spin-sink. By scanning the ordering-temperature of several magnetic transitions, we found that enhanced spin pumping due to spin fluctuations applies with several ordering states: ferromagnetic(Tb) and antiferromagnetic(NiO, NiFeOx, BiFeO3, exchange-biased and unbiased IrMn). Results also represent systematic experimental investigation supporting that the effect is independent of the metallic and insulating nature of the spin-sink, and is observed whether the spin current probe involves electronic or magnonic transport, facilitating advances in material characterization and engineering for spintronic applications.

Published
2019
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6. Unraveling the influence of electronic and magnonic spin current injection near the magnetic ordering transition of IrMn metallic antiferromagnets

Author

Gladii, O., Frangou, L., Forestier, G., Seeger, R. L., Auffret, S., Joumard, I., Rubio-Roy, M., Gambarelli, S., and Baltz, V.

Subjects
Condensed Matter - Materials Science
Abstract

Although spin injection at room temperature in an IrMn metallic antiferromagnet strongly depends on the transport regime, and is more efficient in the case of magnonic transport, in this article, we present experimental data demonstrating that the enhanced efficiency of spin injection caused by spin fluctuations near the ordering temperature can be as efficient for the electronic and magnonic transport regimes. By selecting representative interacting environments, we also demonstrated that the amplification of spin injection near the ordering temperature of the IrMn antiferromagnet is independent of exchange coupling with an adjacent NiFe ferromagnet. In addition, our findings confirm that the spin current carried by magnons penetrates deeper than that transported by conduction electrons in IrMn. Finally, our data indicates that the value of the ordering temperature for the IrMn antiferromagnet is not significantly affected by either the electronic or magnonic nature of the spin current probe, or by exchange coupling.

Published
2018
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8. Relaxation mechanism driven by spin angular momentum absorption throughout antiferromagnetic phase transition in NiFe surface oxides

Author

Frangou, L., Forestier, G., Auffret, S., Gambarelli, S., and Baltz, V.

Subjects
Condensed Matter - Materials Science
Abstract

We report an alternative mechanism for the physical origin of the temperature-dependent ferromagnetic relaxation of Permalloy (NiFe) thin films. Through spin-pumping experiments, we demonstrate that the peak in the temperature-dependence of NiFe damping can be understood in terms of enhanced spin angular momentum absorption at the magnetic phase transition in antiferromagnetic surface-oxidized layers. These results suggest new avenues for the investigation of an incompletely-understood phenomenon in physics.

Published
2016
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9. Antiferromagnetic spintronics

Author

Baltz, V., Manchon, A., Tsoi, M., Moriyama, T., Ono, T., and Tserkovnyak, Y.

Subjects
Condensed Matter - Materials Science
Abstract

Antiferromagnetic materials could represent the future of spintronic applications thanks to the numerous interesting features they combine: they are robust against perturbation due to magnetic fields, produce no stray fields, display ultrafast dynamics and are capable of generating large magneto-transport effects. Intense research efforts over the past decade have been invested in unraveling spin transport properties in antiferromagnetic materials. Whether spin transport can be used to drive the antiferromagnetic order and how subsequent variations can be detected are some of the thrilling challenges currently being addressed. Antiferromagnetic spintronics started out with studies on spin transfer, and has undergone a definite revival in the last few years with the publication of pioneering articles on the use of spin-orbit interactions in antiferromagnets. This paradigm shift offers possibilities for radically new concepts for spin manipulation in electronics. Central to these endeavors are the need for predictive models, relevant disruptive materials and new experimental designs. This paper reviews the most prominent spintronic effects described based on theoretical and experimental analysis of antiferromagnetic materials. It also details some of the remaining bottlenecks and suggests possible avenues for future research.

Published
2016
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10. Spatially periodic domain wall pinning potentials: Asymmetric pinning and dipolar biasing

Author

Metaxas, P. J., Zermatten, P. -J., Novak, R. L., Rohart, S., Jamet, J. -P., Weil, R., Ferré, J., Mougin, A., Stamps, R. L., Gaudin, G., Baltz, V., and Rodmacq, B.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Domain wall propagation has been measured in continuous, weakly disordered, quasi-two-dimensional, Ising-like magnetic layers that are subject to spatially periodic domain wall pinning potentials. The potentials are generated non-destructively using the stray magnetic field of ordered arrays of magnetically hard [Co/Pt]$_m$ nanoplatelets which are patterned above and are physically separated from the continuous magnetic layer. The effect of the periodic pinning potentials on thermally activated domain wall creep dynamics is shown to be equivalent, at first approximation, to that of a uniform, effective retardation field, $H_{ret}$, which acts against the applied field, $H$. We show that $H_{ret}$ depends not only on the array geometry but also on the relative orientation of $H$ and the magnetization of the nanoplatelets. A result of the latter dependence is that wall-mediated hysteresis loops obtained for a set nanoplatelet magnetization exhibit many properties that are normally associated with ferromagnet/antiferromagnet exchange bias systems. These include a switchable bias, coercivity enhancement and domain wall roughness that is dependent on the applied field polarity., Comment: 12 pages, 9 figures

Published
2013
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11. Electrical and thermal spin accumulation in germanium

Author

Jain, A., Vergnaud, C., Peiro, J., Breton, J. C. Le, Prestat, E., Louahadj, L., Portemont, C., Ducruet, C., Baltz, V., Marty, A., Barski, A., Bayle-Guillemaud, P., Vila, L., Attané, J. -P., Augendre, E., Jaffrès, H., George, J. -M., and Jamet, M.

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

In this letter, we first show electrical spin injection in the germanium conduction band at room temperature and modulate the spin signal by applying a gate voltage to the channel. The corresponding signal modulation agrees well with the predictions of spin diffusion models. Then by setting a temperature gradient between germanium and the ferromagnet, we create a thermal spin accumulation in germanium without any tunnel charge current. We show that temperature gradients yield larger spin accumulations than pure electrical spin injection but, due to competing microscopic effects, the thermal spin accumulation in germanium remains surprisingly almost unchanged under the application of a gate voltage to the channel., Comment: 7 pages, 3 figures

Published
2012
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12. Crossover from spin accumulation into interface states to spin injection in the germanium conduction band

Author

Jain, A., Rojas-Sanchez, J. -C., Cubukcu, M., Peiro, J., Breton, J. C. Le, Prestat, E., Vergnaud, C., Louahadj, L., Portemont, C., Ducruet, C., Baltz, V., Barski, A., Bayle-Guillemaud, P., Vila, L., Attané, J. -P., Augendre, E., Desfonds, G., Gambarelli, S., Jaffrès, H., George, J. -M., and Jamet, M.

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

Electrical spin injection into semiconductors paves the way for exploring new phenomena in the area of spin physics and new generations of spintronic devices. However the exact role of interface states in spin injection mechanism from a magnetic tunnel junction into a semiconductor is still under debate. In this letter, we demonstrate a clear transition from spin accumulation into interface states to spin injection in the conduction band of $n$-Ge. We observe spin signal amplification at low temperature due to spin accumulation into interface states followed by a clear transition towards spin injection in the conduction band from 200 K up to room temperature. In this regime, the spin signal is reduced down to a value compatible with spin diffusion model. More interestingly, we demonstrate in this regime a significant modulation of the spin signal by spin pumping generated by ferromagnetic resonance and also by applying a back-gate voltage which are clear manifestations of spin current and accumulation in the germanium conduction band., Comment: 5 pages, 4 figures

Published
2012
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13. Electrical spin injection and detection in Germanium using three terminal geometry

Author

Jain, A., Louahadj, L., Peiro, J., Breton, J. C. Le, Vergnaud, C., Barski, A., Beigné, C., Notin, L., Marty, A., Baltz, V., Auffret, S., Augendre, E., Jaffrès, H., George, J. M., and Jamet, M.

Subjects
Condensed Matter - Materials Science
Abstract

In this letter, we report on successful electrical spin injection and detection in \textit{n}-type germanium-on-insulator (GOI) using a Co/Py/Al$_{2}$O$_{3}$ spin injector and 3-terminal non-local measurements. We observe an enhanced spin accumulation signal of the order of 1 meV consistent with the sequential tunneling process via interface states in the vicinity of the Al$_{2}$O$_{3}$/Ge interface. This spin signal is further observable up to 220 K. Moreover, the presence of a strong \textit{inverted} Hanle effect points at the influence of random fields arising from interface roughness on the injected spins., Comment: 4 pages, 3 figures

Published
2011
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14. Dynamic binding of driven interfaces in coupled ultrathin ferromagnetic layers

Author

Metaxas, P. J., Stamps, R. L., Jamet, J. P., Ferré, J., Baltz, V., Rodmacq, B., and Politi, P.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Disordered Systems and Neural Networks
Abstract

We demonstrate experimentally dynamic interface binding in a system consisting of two coupled ferromagnetic layers. While domain walls in each layer have different velocity-field responses, for two broad ranges of the driving field, H, walls in the two layers are bound and move at a common velocity. The bound states have their own velocity-field response and arise when the isolated wall velocities in each layer are close, a condition which always occurs as H->0. Several features of the bound states are reproduced using a one dimensional model, illustrating their general nature., Comment: 5 pages, 4 figures, to be published in Physical Review Letters

Published
2010
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15. Emerging materials in antiferromagnetic spintronics.

Author

Baltz, V., Hoffmann, A., Emori, S., Shao, D.-F., and Jungwirth, T.

Subjects
ANTIFERROMAGNETIC materials, CONDENSED matter physics, MAGNETIC crystals, SPINTRONICS, INELASTIC neutron scattering, ELECTRIC currents, SUPERCONDUCTING magnets
Abstract

The document titled "Emerging materials in antiferromagnetic spintronics" provides a comprehensive overview of the physics and potential applications of compensated magnets, including antiferromagnets, altermagnets, ferrimagnets, and synthetic antiferromagnets. It is divided into seven thematic groups, covering topics such as topology, spin torques, magnonics, and imaging techniques. The document discusses the latest material developments and offers insights into the fundamental physics of compensated magnets. It also includes articles and perspectives on various topics related to antiferromagnetic materials, such as imaging techniques, ultrafast optics, and the potential of ferrimagnets and synthetic antiferromagnets for hosting topological magnetic textures. The collection provides a valuable resource for researchers interested in the advancements in the field of antiferromagnetic materials. [Extracted from the article]

Published
2024
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16. Diffusive and ballistic current spin-polarization in magnetron-sputtered L1o-ordered epitaxial FePt

Author

Seemann, K. M., Baltz, V., MacKenzie, M., Chapman, J. N., Hickey, B. J., and Marrows, C. H.

Subjects
Condensed Matter - Materials Science
Abstract

We report on the structural, magnetic, and electron transport properties of a L1o-ordered epitaxial iron-platinum alloy layer fabricated by magnetron-sputtering on a MgO(001) substrate. The film studied displayed a long range chemical order parameter of S~0.90, and hence has a very strong perpendicular magnetic anisotropy. In the diffusive electron transport regime, for temperatures ranging from 2 K to 258 K, we found hysteresis in the magnetoresistance mainly due to electron scattering from magnetic domain walls. At 2 K, we observed an overall domain wall magnetoresistance of about 0.5 %. By evaluating the spin current asymmetry alpha = sigma_up / sigma_down, we were able to estimate the diffusive spin current polarization. At all temperatures ranging from 2 K to 258 K, we found a diffusive spin current polarization of > 80%. To study the ballistic transport regime, we have performed point-contact Andreev-reflection measurements at 4.2 K. We obtained a value for the ballistic current spin polarization of ~42% (which compares very well with that of a polycrystalline thin film of elemental Fe). We attribute the discrepancy to a difference in the characteristic scattering times for oppositely spin-polarized electrons, such scattering times influencing the diffusive but not the ballistic current spin polarization., Comment: 22 pages, 13 figures

Published
2007
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17. Creep and flow regimes of magnetic domain wall motion in ultrathin Pt/Co/Pt films with perpendicular anisotropy

Author

Metaxas, P. J., Jamet, J. P., Mougin, A., Cormier, M., Ferre, J., Baltz, V., Rodmacq, B., Dieny, B., and Stamps, R. L.

Subjects
Condensed Matter - Materials Science
Abstract

We report on magnetic domain wall velocity measurements in ultrathin Pt/Co(0.5-0.8 nm)/Pt films with perpendicular anisotropy over a large range of applied magnetic fields. The complete velocity-field characteristics are obtained, enabling an examination of the transition between thermally activated creep and viscous flow: motion regimes predicted from general theories for driven elastic interfaces in weakly disordered media. The dissipation limited flow regime is found to be consistent with precessional domain wall motion, analysis of which yields values for the damping parameter, $\alpha$., Comment: 4 pages, 2 figures, published in Phys. Rev. Lett., changes to manuscript following referees' reports (mostly experimental details or regarding clarity), current version consistent with version in PRL

Published
2007
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18. Magnetic domain structure and dynamics in interacting ferromagnetic stacks with perpendicular anisotropy

Author

Wiebel, S., Jamet, J. P., Vernier, N., Mougin, A., Ferre, J., Baltz, V., Rodmacq, B., and Dieny, B.

Subjects
Condensed Matter - Materials Science
Abstract

The time and field dependence of the magnetic domain structure at magnetization reversal were investigated by Kerr microscopy in interacting ferromagnetic Co/Pt multilayers with perpendicular anisotropy. Large local inhomogeneous magnetostatic fields favor mirroring domain structures and domain decoration by rings of opposite magnetization. The long range nature of these magnetostatic interactions gives rise to ultra-slow dynamics even in zero applied field, i.e. it affects the long time domain stability. Due to this additionnal interaction field, the magnetization reversal under short magnetic field pulses differs markedly from the well-known slow dynamic behavior. Namely, in high field, the magnetization of the coupled harder layer has been observed to reverse more rapidly by domain wall motion than the softer layer alone., Comment: 42 pages including 17 figures. submitted to JAP

Published
2006
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23. Anisotropic long-range spin transport in canted antiferromagnetic orthoferrite YFeO3.

Author

Das, Shubhankar, Ross, A., Ma, X. X., Becker, S., Schmitt, C., van Duijn, F., Galindez-Ruales, E. F., Fuhrmann, F., Syskaki, M.-A., Ebels, U., Baltz, V., Barra, A.-L., Chen, H. Y., Jakob, G., Cao, S. X., Sinova, J., Gomonay, O., Lebrun, R., and Kläui, M.

Subjects
ANTIFERROMAGNETIC materials, SPIN waves, GROUP velocity, MAGNETIC fields, INFORMATION processing, CHOICE of transportation, HEMATITE
Abstract

In antiferromagnets, the efficient transport of spin-waves has until now only been observed in the insulating antiferromagnet hematite, where circularly (or a superposition of pairs of linearly) polarized spin-waves diffuse over long distances. Here, we report long-distance spin-transport in the antiferromagnetic orthoferrite YFeO3, where a different transport mechanism is enabled by the combined presence of the Dzyaloshinskii-Moriya interaction and externally applied fields. The magnon decay length is shown to exceed hundreds of nanometers, in line with resonance measurements that highlight the low magnetic damping. We observe a strong anisotropy in the magnon decay lengths that we can attribute to the role of the magnon group velocity in the transport of spin-waves in antiferromagnets. This unique mode of transport identified in YFeO3 opens up the possibility of a large and technologically relevant class of materials, i.e., canted antiferromagnets, for long-distance spin transport. Antiferromagnets have attracted interest for spin-based information processing due to their resilience to stray magnetic fields and extremely rapid spin dynamics, however, long range spin wave transport has only been shown in one type of antiferromagnet thus far. Here, Das et al demonstrate long range spin wave transport in antiferromagnetic YFeO3. [ABSTRACT FROM AUTHOR]

Published
2022
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24. Penetration depth of Cooper pairs in the IrMn antiferromagnet

Author

Seeger, R. L., primary, Forestier, G., additional, Gladii, O., additional, Leiviskä, M., additional, Auffret, S., additional, Joumard, I., additional, Gomez, C., additional, Rubio-Roy, M., additional, Buzdin, A. I., additional, Houzet, M., additional, and Baltz, V., additional

Published
2021
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25. An extraordinary chiral exchange-bias phenomenon: Engineering the sign of the bias field in orthogonal bilayers by a magnetically switchable response mechanism

Author

Bollero A., Neu V., Baltz V., Serantes D., Cuñado J.L.F., Pedrosa J., Palmero E.M., Seifert M., Dieny B., Del Real R.P., Vázquez M., Chubykalo-Fesenko O., Camarero J. and 'This research was supported by the Joint German-Spanish Actions Programme (DAAD and Fundación Universidad.es via Ref. 57050243), the Spanish Ministerio de Economía y Competitividad (MINECO) through 'SIESPER' (MAT2011-25598) Project, and the Regional Government of Madrid through NANOMAGCOST (P2018/NMT-4321) project. D. S. acknowledges financial support from Xunta de Galicia under the postdoctoral program I2C Plan (Modalidade B) and the Strategic Grouping in Materials (AeMAT',' grant No. ED431E2018/08). IMDEA Nanoscience is supported by the ‘Severo Ochoa’ Programme for Centres of Excellence in R&D, MINECO [grant number SEV-2016-0686].'

Published
2020

26. An extraordinary chiral exchange-bias phenomenon: Engineering the sign of the bias field in orthogonal bilayers by a magnetically switchable response mechanism

Author

Bollero, Alberto, Neu V., Baltz V., Serantes D., Cuñado J.L.F., Pedrosa J., Palmero E.M., Seifert M., Dieny B., Del Real R.P., Vázquez M., Chubykalo-Fesenko O., Camarero, Julio, Bollero, Alberto, Neu V., Baltz V., Serantes D., Cuñado J.L.F., Pedrosa J., Palmero E.M., Seifert M., Dieny B., Del Real R.P., Vázquez M., Chubykalo-Fesenko O., and Camarero, Julio

Published
2020

28. Monte Carlo investigation of how interfacial magnetic couplings affect blocking temperature distributions in exchange bias bilayers.

Author

Lhoutellier, G., Ledue, D., Patte, R., and Baltz, V.

Subjects
MAGNETIC coupling, TEMPERATURE distribution, ANTIFERROMAGNETISM, ANISOTROPY, EXCHANGE interactions (Magnetism)
Abstract

Exchange bias in ferromagnetic (F)/antiferromagnetic (AF) bilayers is a function of both the bulk properties of the AF layer and the interfacial properties determining the effective interfacial couplings between the F and AF layers. The distinction between bulk and interface can be clearly revealed in blocking temperature distributions, where AF grain volume distribution results in a high-temperature peak while disordered interfacial magnetic phases produce a low-temperature contribution. However, the coupling conditions producing such bimodal blocking temperature distributions remain to be specified. In this article, we use a granular model which accounts for the disordered interfacial phases by considering small magnetic grains (SGs) with weaker anisotropy and coupling with the F grains at the F/AF interface. The SG are included in the AF material. The coupling conditions producing bimodal blocking temperature distributions were determined. Then, using Monte Carlo simulations, these conditions were validated and the effect of interfacial F-SG coupling on distributions was investigated. We next determined how the ratio between F-SG and F-AF couplings could be used to estimate the surface coverage of the disordered interfacial phases from experimental data. [ABSTRACT FROM AUTHOR]

Published
2016
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29. Self-induced inverse spin Hall effect in ferromagnets: Demonstration through nonmonotonic temperature dependence in permalloy

Author

Gladii, O., primary, Frangou, L., additional, Hallal, A., additional, Seeger, R. L., additional, Noël, P., additional, Forestier, G., additional, Auffret, S., additional, Rubio-Roy, M., additional, Warin, P., additional, Vila, L., additional, Wimmer, S., additional, Ebert, H., additional, Gambarelli, S., additional, Chshiev, M., additional, and Baltz, V., additional

Published
2019
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31. Exchange bias in annealed [Pt/Co]/NiFe systems

Author

Bollero, A., Buda-Prejbeanu, L.D., Baltz, V., Rodmacq, B., and Dieny, B.

Subjects
Anisotropy -- Research, Electromagnetism -- Research, Business, Electronics, Electronics and electrical industries
Abstract

Exchange bias without antiferromagnetic layer was observed in systems consisting of two exchange coupled ferromagnetic materials: [(Pt/Co).sub.n] multilayer (with out-of-plane anisotropy) and permalloy, NiFe, (with in-plane anisotropy). We investigated the influence of various parameters on this phenomenon: Pt buffer layer thickness, number of repeats in the multilayer, thickness of the NiFe layer. Annealing yields a doubling in the magnitude of the loop shift as a result of an improved texture and mosaicity of the films. Index Terms--Coercive field, exchange bias, perpendicular anisotropy.

Published
2006

32. Direct imaging of thermally-activated grain-boundary diffusion in Cu/Co/IrMn/Pt exchange-bias structures using atom-probe tomography.

Author

Letellier, F., Lechevallier, L., Lardé, R., Le Breton, J.-M., Akmaldinov, K., Auffret, S., Dieny, B., and Baltz, V.

Subjects
TOMOGRAPHY, SURFACE coatings, CONDENSED matter physics, THIN film manufacturing, ELLIPSOMETRY
Abstract

Magnetic devices are often subject to thermal processing steps, such as field cooling to set exchange bias and annealing to crystallize amorphous magnetic electrodes. These processing steps may result in interdiffusion and the subsequent deterioration of magnetic properties. In this study, we investigated thermally-activated diffusion in Cu/Co/IrMn/Pt exchange biased polycrystalline thin-film structures using atom probe tomography. Images taken after annealing at 400°C for 60 min revealed Mn diffusion into Co grains at the Co/IrMn interface and along Pt grain boundaries for the IrMn/Pt stack, i.e., a Harrison type C regime. Annealing at 500°C showed further Mn diffusion into Co grains. At the IrMn/Pt interface, annealing at 500°C led to a type B behavior since Mn diffusion was detected both along Pt grain boundaries and also into Pt grains. The deterioration of the films' exchange bias properties upon annealing was correlated to the observed diffusion. In particular, the topmost Pt capping layer thickness turned out to be crucial since a faster deterioration of the exchange bias properties for thicker caps was observed. This is consistent with the idea that Pt acts as a getter for Mn, drawing Mn out of the IrMn layer. [ABSTRACT FROM AUTHOR]

Published
2014
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34. Antiferromagnetic spintronics

Author

Baltz, V., primary, Manchon, A., additional, Tsoi, M., additional, Moriyama, T., additional, Ono, T., additional, and Tserkovnyak, Y., additional

Published
2018
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35. Characterization of (Pt2 nm/Co0.4 nm)3/Ptx/IrMn7 nm multilayers by tomographic atom probe: On the role of a Pt spacer.

Author

Zarefy, A., Lardé, R., Lechevallier, L., Cuvilly, F., Le Breton, J. M., Baltz, V., Rodmacq, B., and Dieny, B.

Subjects
MULTILAYERED thin films, ANISOTROPY, MAGNETIC properties, DIFFUSION, LASERS, COBALT, TANTALUM, PLATINUM
Abstract

Structural investigation of Ta3 nm/[(Pt2 nm/Co0.4 nm)3/Ptx/IrMn7 nm]7/Pt10 nm multilayers without (x=0 nm) and with (x=0.4 nm) a Pt spacer has been performed by laser-assisted tomographic atom probe. Without a Pt spacer a strong intermixing is observed at the Co/IrMn interface. In the multilayer containing a Pt spacer the Co/Pt/IrMn interface is very weakly intermixed. It thus appears that the Pt spacer acts as a diffusion barrier that prevents the Ir and Mn atoms from diffusing into the Co layer. The consequences of this effect on the magnetic properties are discussed. The exchange bias field and the anisotropy direction of these two multilayers are analyzed and correlated with the structural investigation. [ABSTRACT FROM AUTHOR]

Published
2009
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36. Characterization of [([Pt.sub.2] nm/[Co.sub.0.4] nm).sub.3]/[Pt.sub.x]/Ir[Mn.sub.7] nm multilayers by tomographic atom probe: on the role of a Pt spacer

Author

Zarefy, A., Larde, R., Lechevallier, L., Cuvilly, F., Le Breton, J.M., Baltz, V., Rodmacq, B., and Dieny, B.

Subjects
Cobalt alloys -- Magnetic properties, Cobalt alloys -- Electric properties, Iridium -- Magnetic properties, Iridium -- Electric properties, Manganese alloys -- Magnetic properties, Manganese alloys -- Electric properties, Platinum -- Magnetic properties, Platinum -- Electric properties, Tantalum -- Magnetic properties, Tantalum -- Electric properties, Tomography -- Usage, Physics
Abstract

A laser-assisted tomographic atom probe is used for structural characterization of [Ta.sub.3] nm/[[[([Pt.sub.2] nm/[Co.sub.0.4] nm).sub.3]/[Pt.sub.x]/Ir[Mn.sub.7] nm].sub.7]/[Pt.sub.10] nm multilayers without (x=0 nm) and with (x=0.4 nm) a Pt spacer. The diffusion of Ir and Mn atoms into the Co layer which is prevented by the Pt spacer that acts as a diffusion barrier and the consequences of such effect on the magnetic properties of multilayer is also discussed.

Published
2009

37. Magnetization reversal of nanostructured tunnel junctions from prepatterned substrates

Author

Bollero, A., Baltz, V., Dieny, B., Negulescu, B., Rickart, M., Freitas, P.P., Vogel, J., Bonfim, M., and Landis, S.

Subjects
Manganese alloys -- Magnetic properties, Manganese alloys -- Structure, Platinum -- Magnetic properties, Tunneling (Physics) -- Analysis, Magnetization -- Analysis, Physics
Abstract

The possibility of transferring the magnetic properties of magnetic tunnel junctions (TJs) based on MnPt is examined and it is prepared as thin films stacks to nanostructured systems. Significant dipolar interactions between the dots have contributed to the complexity of the magnetization reversal of the stacks.

Published
2008

40. Highly asymmetric magnetic domain wall propagation due\ud to coupling to a periodic pinning potential

Author

Novak, R.L., Metaxas, P.J., Jamet, J.P., Weil, R., Ferre, J., Mougin, A., Rohart, S., Stamps, R., Zermatten, P.J., Gaudin, G., Baltz, V., and Rodmacq, B.

Subjects
Condensed Matter::Materials Science, QC
Abstract

Magneto-optical microscopy and magnetometry have been used to study\ud 19 magnetization reversal in an ultrathin magnetically soft [Pt/Co]2 ferromagnetic film\ud 20 coupled to an array of magnetically harder [Co/Pt]4 nanodots via a predominantly\ud 21 dipolar interaction across a 3 nm Pt spacer. This interaction generates a spatially\ud 22 periodic pinning potential for domain walls propagating through the continuous\ud 23 magnetic film. When reversing the applied field with respect to the static nanodot\ud 24 array magnetization orientation, strong asymmetries in the wall velocity and switching\ud 25 fields are observed. Asymmetric switching fields mean that the hysteresis of the film is\ud 26 characterized by a large bias field of dipolar origin which is linked to the wall velocity\ud 27 asymmetry. This latter asymmetry, though large at low fields, vanishes at high fields\ud 28 where the domains become round and compact. A field-polarity-controlled transition\ud 29 from dendritic to compact faceted domain structures is also seen at low field and a\ud 30 model is proposed to interpret the transition.

Published
2015

43. Mixing antiferromagnets to tune NiFe-[IrMn/FeMn] interfacial spin-glasses, grains thermal stability, and related exchange bias properties.

Author

Akmaldinov, K., Ducruet, C., Portemont, C., Joumard, I., Prejbeanu, I. L., Dieny, B., and Baltz, V.

Subjects
FERROMAGNETIC materials, TEMPERATURE, HYSTERESIS loop, SPINTRONICS, GRAIN
Abstract

Spintronics devices and in particular thermally assisted magnetic random access memories require a wide range of ferromagnetic/antiferromagnetic (F/AF) exchange bias (EB) properties and subsequently of AF materials to fulfil diverse functionality requirements for the reference and storage. For the reference layer, large EB energies and high blocking temperature (TB) are required. In contrast, for the storage layer, mostly moderate TB are needed. One of the present issues is to find a storage layer with properties intermediate between those of IrMn and FeMn and in particular: (i) with a TB larger than FeMn for better stability at rest-T but lower than IrMn to reduce power consumption at write-T and (ii) with improved magnetic interfacial quality, i.e., with reduced interfacial glassy character for lower properties dispersions. To address this issue, the EB properties of F/AF based stacks were studied for various mixed [IrMn/FeMn] AFs. In addition to EB loop shifts, the F/AF magnetic interfacial qualities and the AF grains thermal stability are probed via measurements of the low- and high-temperature contributions to the TB distributions, respectively. A tuning of the above three parameters is observed when evolving from IrMn to FeMn via [IrMn/FeMn] repetitions. [ABSTRACT FROM AUTHOR]

Published
2014
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45. Extraordinary exchange-bias effects in coupled SmCo5 (perpendicular)/CoFeB (in-plane) bilayers

Author

Bollero, Alberto, Pedrosa F., Cuñado J., Camarero, Julio, Seifert M., Neu V., Baltz V., Serantes D., Chubykalo-Fesenko O., Del Real R., Vázquez M., Schultz L., Dieny B., Miranda, Rodolfo, Bollero, Alberto, Pedrosa F., Cuñado J., Camarero, Julio, Seifert M., Neu V., Baltz V., Serantes D., Chubykalo-Fesenko O., Del Real R., Vázquez M., Schultz L., Dieny B., and Miranda, Rodolfo

Published
2015

46. Influence of Pt as Mn diffusion barrier on the distribution of blocking temperature in Co/(Pt)/IrMn exchange biased layers.

Author

Baltz, V. and Dieny, B.

Subjects
*PLATINUM, *MANGANESE, *COBALT, *IRIDIUM, *FERROMAGNETIC materials, *SPINTRONICS
Abstract

Many spintronic devices such as thermally-assisted magnetic random access memories take advantage of the ferromagnetic(F)/antiferromagnetic(AF) interaction to pin the magnetization of a reference layer. However, they suffer from detrimental blocking temperatures distributions from memory cell to memory cell. A low-temperature contribution to the distribution was ascribed to spin-glass like regions which are randomly spread over the film. We report on an attempt to reduce the amount of these spin-glass like regions due to interdiffusion of species by adding a diffusion barrier at the F/AF interface. [ABSTRACT FROM AUTHOR]

Published
2011
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48. Fast propagation of weakly-pinned domain walls and current-assisted magnetization reversal in He+-irradiated Pt/Co/Pt nanotracks

Author

Cormier, M., Mougin, A., Ferré, J., Jamet, J.-P., Weil, R., Fassbender, J., Baltz, V., and Rodmacq, B.

Subjects
magnetic anisotropy, domain walls, magnetism, ion irradiation, microscopy, dynamics
Abstract

Current developments of magnetic data storage and processing technologies make highly desirable to control fast and reproducible magnetic-domain-wall motion in narrow magnetic tracks, using either magnetic field or electrical current. For this purpose, nanotracks defined in ultrathin magnetic films with out-of-plane anisotropy seem to be particularly interesting. However, in most of the out-of-plane metallic nanosystems which were studied up to now, domain-wall pinning was shown to still play a predominant role, which resulted in low domain-wall velocities, as compared to the ones observed in plain magnetic films [1]. Using magneto-optical microscopy, we show that in an etched Pt/Co/Pt nanotrack with out-of-plane anisotropy, where pinning has been artificially reduced by He+-irradiation [2], weakly-pinned domain-walls can propagate as fast and under magnetic fields as low as in the corresponding plain irradiated film (Fig. 1) [3]. Moreover, when magnetic-field and electrical-current pulses are simultaneously applied to the track, a considerably faster magnetization reversal is observed, which is due to a Joule-heating-induced thermomagnetic effect [3]. This work was partially supported by the EU-“Research Infrastructures Transnational Access” program “Center for Application of Ion Beams in Materials Research” under contract no. 025646, and by the French ANR-07-NANO-034 “Dynawall” project. * now at Radboud University Nijmegen, Institute for Molecules and Materials, Netherlands [1] F. Cayssol et al., Phys. Rev. Lett. 92, 107202 (2004). [2] C. Chappert et al., Science 280, 1919 (1998). [3] M. Cormier et al., submitted (2011).

Published
2011

49. Extraordinary exchange-bias effects in coupled SmCo5 (perpendicular)/CoFeB (in-plane) bilayers

Author

Bollero, A., primary, Pedrosa, F., additional, Cunado, J., additional, Camarero, J., additional, Seifert, M., additional, Neu, V., additional, Baltz, V., additional, Serantes, D., additional, Chubykalo-Fesenko, O., additional, Del Real, R., additional, Vazquez, M., additional, Schultz, L., additional, Dieny, B., additional, and Miranda, R., additional

Published
2015
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