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22 results on '"Savero Torres W"'

1. Spin dependent transport characterization in metallic lateral spin valves using 1D and 3D modeling

Author

Laczkowski, P., Cosset-Cheneau, M., Savero-Torres, W., Pham, V. T., Jaffrès, H., Reyren, N., Rojas-Sànchez, J. -C., Marty, A., Vila, L., George, J. -M., and Attané, J. -P.

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

We present the analysis of the spin signals obtained in NiFe based metallic lateral spin valves. We exploit the spin dependent diffusive equations in both the conventional 1D analytic modeling as well as in 3D Finite Element Method simulations. Both approaches are used for extracting the spin diffusion length $l_{sf}^{N}$ and the effective spin polarization $P_{eff}$ in Py/Al, Py/Cu and Py/Au based lateral nano-structures at both $300\,K$ and $77\,K$. Both the analytic modeling and 3D Finite Element Method simulations give consistent results. Combination of both models provides a powerful tool for reliable spin transport characterization in all metallic spin valves and gives an insight into the spin/charge current and spin accumulations 3D distributions in these devices. We provide the necessary ingredients to develop the 3D finite element modeling of diffusive spin transport., Comment: 8 pages, 6 figures

Published
2019
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2. Evaluation of the spin diffusion length of AuW alloy by spin absorption experiments in the limit of large spin-orbit interactions

Author

Laczkowski, P., Jaffrès, H., Savero-Torres, W., Rojas-Sánchez, J. -C., Fu, Y., Reyren, N., Deranlot, C., Notin, L., Beigné, C., Attané, J. -P., Vila, L., George, J. -M., and Marty, A.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The knowledge of the spin diffusion length $\lambda_{A}$ is a prerequisite for the estimation of the spin Hall angle. We investigate spin current absorption of materials with small $\lambda_{A}$ using AuW stripes inserted in lateral spin-valves. Width variations of the AuW stripe lead to drastic changes of the spin absorption, which cannot be explained by conventional analysis. We show that the spin-current polarization and the spin accumulation attenuation in the vicinity of the spin absorber must to be precisely taken into account for accurate estimation of $\lambda_{A}$. We propose an analytical model supported by numerical calculations that allows to extract proper $\lambda_{A}$ values of spin Hall effect materials.

Published
2015

3. Experimental evidences of a large extrinsic spin Hall effect in AuW alloy

Author

Laczkowski, P., Rojas-Sánchez, J. -C., Savero-Torres, W., Jaffrès, H., Reyren, N., Deranlot, C., Notin, L., Beigné, C., Marty, A., Attané, J. -P., Vila, L., George, J. -M., and Fert, A.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report an experimental study of a gold-tungsten alloy (7% at. W concentration in Au host) displaying remarkable properties for spintronics applications using both magneto-transport in lateral spin valve devices and spin-pumping with inverse spin Hall effect experiments. A very large spin Hall angle of about 10% is consistently found using both techniques with the reliable spin diffusion length of 2 nm estimated by the spin sink experiments in the lateral spin valves. With its chemical stability, high resistivity and small induced damping, this AuW alloy may find applications in the nearest future.

Published
2014
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5. Spin-dependent transport characterization in metallic lateral spin valves using one-dimensional and three-dimensional modeling

Author

Laczkowski, P., primary, Cosset-Cheneau, M., additional, Savero-Torres, W., additional, Pham, V. T., additional, Zahnd, G., additional, Jaffrès, H., additional, Reyren, N., additional, Rojas-Sànchez, J.-C., additional, Marty, A., additional, Vila, L., additional, George, J.-M., additional, and Attané, J.-P., additional

Published
2019
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16. Evaluation of spin diffusion length of AuW alloys using spin absorption experiments in the limit of large spin-orbit interactions

Author

Laczkowski, P., primary, Jaffrès, H., additional, Savero-Torres, W., additional, Rojas-Sánchez, J.-C., additional, Fu, Y., additional, Reyren, N., additional, Deranlot, C., additional, Notin, L., additional, Beigné, C., additional, Attané, J.-P., additional, Vila, L., additional, George, J.-M., additional, and Marty, A., additional

Published
2015
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18. Experimental evidences of a large extrinsic spin Hall effect in AuW alloy

Author

Laczkowski, P., primary, Rojas-Sánchez, J.-C., additional, Savero-Torres, W., additional, Jaffrès, H., additional, Reyren, N., additional, Deranlot, C., additional, Notin, L., additional, Beigné, C., additional, Marty, A., additional, Attané, J.-P., additional, Vila, L., additional, George, J.-M., additional, and Fert, A., additional

Published
2014
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19. In-plane and out-of-plane spin precession in lateral spin-valves

Author

Rojas Sánchez, J.-C., primary, Laczkowski, P., additional, Savero Torres, W. F., additional, Cubukcu, M., additional, Nguyen, V. D., additional, Notin, L., additional, Beigné, C., additional, Vergnaud, C., additional, Marty, A., additional, Jamet, M., additional, Vila, L., additional, and Attané, J. P., additional

Published
2013
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20. Tunable room-temperature spin galvanic and spin Hall effects in van der Waals heterostructures.

Author

Benítez LA, Savero Torres W, Sierra JF, Timmermans M, Garcia JH, Roche S, Costache MV, and Valenzuela SO

Abstract

Spin-orbit coupling stands as a powerful tool to interconvert charge and spin currents and to manipulate the magnetization of magnetic materials through spin-torque phenomena. However, despite the diversity of existing bulk materials and the recent advent of interfacial and low-dimensional effects, control of this interconversion at room temperature remains elusive. Here, we demonstrate strongly enhanced room-temperature spin-to-charge interconversion in graphene driven by the proximity of WS 2 . By performing spin precession experiments in appropriately designed Hall bars, we separate the contributions of the spin Hall and the spin galvanic effects. Remarkably, their corresponding conversion efficiencies can be tailored by electrostatic gating in magnitude and sign, peaking near the charge neutrality point with an equivalent magnitude that is comparable to the largest efficiencies reported to date. Such electric-field tunability provides a building block for spin generation free from magnetic materials and for ultra-compact magnetic memory technologies.

Published
2020
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21. Ferromagnetic/Nonmagnetic Nanostructures for the Electrical Measurement of the Spin Hall Effect.

Author

Pham VT, Vila L, Zahnd G, Marty A, Savero-Torres W, Jamet M, and Attané JP

Abstract

Spin-orbitronics is based on the ability of spin-orbit interactions to achieve the conversion between charge currents and pure spin currents. As the precise evaluation of the conversion efficiency becomes a crucial issue, the need for straightforward ways to observe this conversion has emerged as one of the main challenges in spintronics. Here, we propose a simple device, akin to the ferromagnetic/nonmagnetic bilayers used in most spin-orbit torques experiments, and consisting of a spin Hall effect wire connected to two transverse ferromagnetic electrodes. We show that this system allows probing electrically the direct and inverse conversion in a spin Hall effect system and measuring both the spin Hall angle and the spin diffusion length. By applying this method to several spin Hall effect materials (Pt, Pd, Au, Ta, W), we show that it represents a promising tool for the metrology of spin-orbit materials.

Published
2016
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22. Comparison of the use of NiFe and CoFe as electrodes for metallic lateral spin valves.

Author

Zahnd G, Vila L, Pham TV, Marty A, Laczkowski P, Savero Torres W, Beigné C, Vergnaud C, Jamet M, and Attané JP

Abstract

Spin injection and detection in Co60Fe40-based all-metallic lateral spin valves have been studied at both room and low temperatures. The obtained spin signals amplitudes have been compared to those of identical Ni80Fe20-based devices. The replacement of Ni80Fe20 by CoFe allows increasing the spin signal amplitude by up to one order of magnitude, thus reaching 50 mΩ at room temperature. The spin signal dependence with the distance between the ferromagnetic electrodes has been analyzed using both a 1D spin-transport model and finite element method simulations. The enhancement of the spin signal amplitude when using CoFe electrodes can be explained by a higher effective polarization.

Published
2016
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