Spin pumping and laser modulated inverse spin Hall effect in yttrium iron garnet/germanium heterojunctions

In this work, undoped semiconductors, germanium (Ge) and germanium tin (GeSn), were grown on ferrimagnetic insulator yttrium iron garnet (YIG) thin films using ultra-high vacuum molecular beam epitaxy. The crystallinity of the structure was determined from x-ray diffraction and high-resolution trans...

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Veröffentlicht in:	Applied physics letters 2020-03, Vol.116 (12)
Hauptverfasser:	Jin, Lichuan, Zhu, Hongyu, Zhang, Dainan, Liu, Bo, Meng, Hao, Tang, Xiaoli, Li, MingMing, Zhong, Zhiyong, Zhang, Huaiwu
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Sprache:	eng
Schlagworte:	Applied physics Broadband Current injection Damping Electrons Ferrimagnetism Ferromagnetic resonance Ferromagnetism Germanium Hall effect Heavy metals Heterojunctions High vacuum Infrared lasers Intermetallic compounds Iron Laser pumping Lasers Molecular beam epitaxy Platinum Spintronics Temperature effects Thin films Yttrium Yttrium-iron garnet
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container_title	Applied physics letters
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creator	Jin, Lichuan Zhu, Hongyu Zhang, Dainan Liu, Bo Meng, Hao Tang, Xiaoli Li, MingMing Zhong, Zhiyong Zhang, Huaiwu
description	In this work, undoped semiconductors, germanium (Ge) and germanium tin (GeSn), were grown on ferrimagnetic insulator yttrium iron garnet (YIG) thin films using ultra-high vacuum molecular beam epitaxy. The crystallinity of the structure was determined from x-ray diffraction and high-resolution transmission electron microscopy combined with energy dispersive x-ray spectroscopy. Both spin pumping and inverse spin Hall effects (ISHEs) of YIG/Ge and YIG/GeSn heterojunctions have been investigated with the help of broadband ferromagnetic resonance (FMR). We observe that the spin mixing conductances of YIG/Ge (60 nm) and YIG/GeSn (60 nm) are 5.4 × 1018 m−2 and 7.2 × 1018 m−2, respectively, responsible for giant spin current injection. Furthermore, it is found that spin pumping injects giant spin current from ferrimagnetic YIG into the Ge semiconductor. The infrared laser modulated ISHE was examined using heavy metal platinum as a spin current collector. Also, it has been noted that the variation in the power of laser irradiation significantly changed the ISHE voltage of YIG/Ge/Pt spin junctions, saturated magnetization, FMR linewidth, and Gilbert damping parameter of YIG, which could be attributed to the laser-induced thermal effect. The outcomes from this study are promising for the development of Ge-based spintronic and magnonic devices.
doi_str_mv	10.1063/1.5141400
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Also, it has been noted that the variation in the power of laser irradiation significantly changed the ISHE voltage of YIG/Ge/Pt spin junctions, saturated magnetization, FMR linewidth, and Gilbert damping parameter of YIG, which could be attributed to the laser-induced thermal effect. 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Also, it has been noted that the variation in the power of laser irradiation significantly changed the ISHE voltage of YIG/Ge/Pt spin junctions, saturated magnetization, FMR linewidth, and Gilbert damping parameter of YIG, which could be attributed to the laser-induced thermal effect. 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subjects	Applied physics Broadband Current injection Damping Electrons Ferrimagnetism Ferromagnetic resonance Ferromagnetism Germanium Hall effect Heavy metals Heterojunctions High vacuum Infrared lasers Intermetallic compounds Iron Laser pumping Lasers Molecular beam epitaxy Platinum Spintronics Temperature effects Thin films Yttrium Yttrium-iron garnet
title	Spin pumping and laser modulated inverse spin Hall effect in yttrium iron garnet/germanium heterojunctions
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