Evidence of Pure Spin-Current Generated by Spin Pumping in Interface-Localized States in Hybrid Metal-Silicon-Metal Vertical Structures

Carolina Cerqueira; Jian Yin Qin; Huong Dang; Abdelhak Djeffal; Jean Christophe Le Breton; Michel Hehn; Juan Carlos Rojas-Sanchez; Xavier Devaux; Stéphane Suire; Sylvie Migot; Philippe Schieffer; Jean Georges Mussot; Piotr Łaczkowski; Abdelmadjid Anane; Sebastien Petit-Watelot; Mathieu Stoffel; Stéphane Mangin; Zhi Liu; Bu Wen Cheng; Xiu Feng Han; Henri Jaffrès; Jean Marie George; Yuan Lu

doi:10.1021/acs.nanolett.8b03386

Evidence of Pure Spin-Current Generated by Spin Pumping in Interface-Localized States in Hybrid Metal-Silicon-Metal Vertical Structures

Carolina Cerqueira, Jian Yin Qin, Huong Dang, Abdelhak Djeffal, Jean Christophe Le Breton, Michel Hehn, Juan Carlos Rojas-Sanchez, Xavier Devaux, Stéphane Suire, Sylvie Migot, Philippe Schieffer, Jean Georges Mussot, Piotr Łaczkowski, Abdelmadjid Anane, Sebastien Petit-Watelot, Mathieu Stoffel, Stéphane Mangin, Zhi Liu, Bu Wen Cheng, Xiu Feng HanHenri Jaffrès, Jean Marie George, Yuan Lu

Research output: Contribution to journal › Article › peer-review

Abstract

Due to the difficulty of growing high-quality semiconductors on ferromagnetic metals, the study of spin diffusion transport in Si was limited to lateral geometry devices. In this work, by using an ultrahigh-vacuum wafer-bonding technique, we have successfully fabricated metal-semiconductor-metal CoFeB/MgO/Si/Pt vertical structures. We hereby demonstrate pure spin-current injection and transport in the perpendicular current flow geometry over a distance larger than 2 μm in n-type Si at room temperature. In those experiments, a pure propagating spin current is generated via ferromagnetic resonance spin pumping and converted into a measurable voltage by using the inverse spin Hall effect occurring in the top Pt layer. A systematic study varying both Si and MgO thicknesses reveals the important role played by the localized states at the MgO-Si interface for the spin-current generation. Proximity effects involving indirect exchange interactions between the ferromagnet and the MgO-Si interface states appears to be a prerequisite to establishing the necessary out-of-equilibrium spin population in Si under the spin-pumping action.

Original language	English
Pages (from-to)	90-99
Number of pages	10
Journal	Nano Letters
Volume	19
Issue number	1
DOIs	https://doi.org/10.1021/acs.nanolett.8b03386
Publication status	Published - 9 Jan 2019
Externally published	Yes

Keywords

Spin pumping
inverse spin Hall effect
localized electronic states
spin current
wafer bonding

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Cerqueira, C., Qin, J. Y., Dang, H., Djeffal, A., Le Breton, J. C., Hehn, M., Rojas-Sanchez, J. C., Devaux, X., Suire, S., Migot, S., Schieffer, P., Mussot, J. G., Łaczkowski, P., Anane, A., Petit-Watelot, S., Stoffel, M., Mangin, S., Liu, Z., Cheng, B. W., ... Lu, Y. (2019). Evidence of Pure Spin-Current Generated by Spin Pumping in Interface-Localized States in Hybrid Metal-Silicon-Metal Vertical Structures. Nano Letters, 19(1), 90-99. https://doi.org/10.1021/acs.nanolett.8b03386

@article{a243e1d5bca241208504892e2c502084,

title = "Evidence of Pure Spin-Current Generated by Spin Pumping in Interface-Localized States in Hybrid Metal-Silicon-Metal Vertical Structures",

abstract = "Due to the difficulty of growing high-quality semiconductors on ferromagnetic metals, the study of spin diffusion transport in Si was limited to lateral geometry devices. In this work, by using an ultrahigh-vacuum wafer-bonding technique, we have successfully fabricated metal-semiconductor-metal CoFeB/MgO/Si/Pt vertical structures. We hereby demonstrate pure spin-current injection and transport in the perpendicular current flow geometry over a distance larger than 2 μm in n-type Si at room temperature. In those experiments, a pure propagating spin current is generated via ferromagnetic resonance spin pumping and converted into a measurable voltage by using the inverse spin Hall effect occurring in the top Pt layer. A systematic study varying both Si and MgO thicknesses reveals the important role played by the localized states at the MgO-Si interface for the spin-current generation. Proximity effects involving indirect exchange interactions between the ferromagnet and the MgO-Si interface states appears to be a prerequisite to establishing the necessary out-of-equilibrium spin population in Si under the spin-pumping action.",

keywords = "Spin pumping, inverse spin Hall effect, localized electronic states, spin current, wafer bonding",

author = "Carolina Cerqueira and Qin, \{Jian Yin\} and Huong Dang and Abdelhak Djeffal and \{Le Breton\}, \{Jean Christophe\} and Michel Hehn and Rojas-Sanchez, \{Juan Carlos\} and Xavier Devaux and St{\'e}phane Suire and Sylvie Migot and Philippe Schieffer and Mussot, \{Jean Georges\} and Piotr {\L}aczkowski and Abdelmadjid Anane and Sebastien Petit-Watelot and Mathieu Stoffel and St{\'e}phane Mangin and Zhi Liu and Cheng, \{Bu Wen\} and Han, \{Xiu Feng\} and Henri Jaffr{\`e}s and George, \{Jean Marie\} and Yuan Lu",

note = "Publisher Copyright: {\textcopyright} 2018 American Chemical Society.",

year = "2019",

month = jan,

day = "9",

doi = "10.1021/acs.nanolett.8b03386",

language = "English",

volume = "19",

pages = "90--99",

journal = "Nano Letters",

issn = "1530-6984",

number = "1",

}

Cerqueira, C, Qin, JY, Dang, H, Djeffal, A, Le Breton, JC, Hehn, M, Rojas-Sanchez, JC, Devaux, X, Suire, S, Migot, S, Schieffer, P, Mussot, JG, Łaczkowski, P, Anane, A, Petit-Watelot, S, Stoffel, M, Mangin, S, Liu, Z, Cheng, BW, Han, XF, Jaffrès, H, George, JM & Lu, Y 2019, 'Evidence of Pure Spin-Current Generated by Spin Pumping in Interface-Localized States in Hybrid Metal-Silicon-Metal Vertical Structures', Nano Letters, vol. 19, no. 1, pp. 90-99. https://doi.org/10.1021/acs.nanolett.8b03386

TY - JOUR

T1 - Evidence of Pure Spin-Current Generated by Spin Pumping in Interface-Localized States in Hybrid Metal-Silicon-Metal Vertical Structures

AU - Cerqueira, Carolina

AU - Qin, Jian Yin

AU - Dang, Huong

AU - Djeffal, Abdelhak

AU - Le Breton, Jean Christophe

AU - Hehn, Michel

AU - Rojas-Sanchez, Juan Carlos

AU - Devaux, Xavier

AU - Suire, Stéphane

AU - Migot, Sylvie

AU - Schieffer, Philippe

AU - Mussot, Jean Georges

AU - Łaczkowski, Piotr

AU - Anane, Abdelmadjid

AU - Petit-Watelot, Sebastien

AU - Stoffel, Mathieu

AU - Mangin, Stéphane

AU - Liu, Zhi

AU - Cheng, Bu Wen

AU - Han, Xiu Feng

AU - Jaffrès, Henri

AU - George, Jean Marie

AU - Lu, Yuan

PY - 2019/1/9

Y1 - 2019/1/9

N2 - Due to the difficulty of growing high-quality semiconductors on ferromagnetic metals, the study of spin diffusion transport in Si was limited to lateral geometry devices. In this work, by using an ultrahigh-vacuum wafer-bonding technique, we have successfully fabricated metal-semiconductor-metal CoFeB/MgO/Si/Pt vertical structures. We hereby demonstrate pure spin-current injection and transport in the perpendicular current flow geometry over a distance larger than 2 μm in n-type Si at room temperature. In those experiments, a pure propagating spin current is generated via ferromagnetic resonance spin pumping and converted into a measurable voltage by using the inverse spin Hall effect occurring in the top Pt layer. A systematic study varying both Si and MgO thicknesses reveals the important role played by the localized states at the MgO-Si interface for the spin-current generation. Proximity effects involving indirect exchange interactions between the ferromagnet and the MgO-Si interface states appears to be a prerequisite to establishing the necessary out-of-equilibrium spin population in Si under the spin-pumping action.

AB - Due to the difficulty of growing high-quality semiconductors on ferromagnetic metals, the study of spin diffusion transport in Si was limited to lateral geometry devices. In this work, by using an ultrahigh-vacuum wafer-bonding technique, we have successfully fabricated metal-semiconductor-metal CoFeB/MgO/Si/Pt vertical structures. We hereby demonstrate pure spin-current injection and transport in the perpendicular current flow geometry over a distance larger than 2 μm in n-type Si at room temperature. In those experiments, a pure propagating spin current is generated via ferromagnetic resonance spin pumping and converted into a measurable voltage by using the inverse spin Hall effect occurring in the top Pt layer. A systematic study varying both Si and MgO thicknesses reveals the important role played by the localized states at the MgO-Si interface for the spin-current generation. Proximity effects involving indirect exchange interactions between the ferromagnet and the MgO-Si interface states appears to be a prerequisite to establishing the necessary out-of-equilibrium spin population in Si under the spin-pumping action.

KW - Spin pumping

KW - inverse spin Hall effect

KW - localized electronic states

KW - spin current

KW - wafer bonding

U2 - 10.1021/acs.nanolett.8b03386

DO - 10.1021/acs.nanolett.8b03386

M3 - Article

C2 - 30472859

AN - SCOPUS:85059839542

SN - 1530-6984

VL - 19

SP - 90

EP - 99

JO - Nano Letters

JF - Nano Letters

IS - 1

ER -

Evidence of Pure Spin-Current Generated by Spin Pumping in Interface-Localized States in Hybrid Metal-Silicon-Metal Vertical Structures

Abstract

Keywords

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