2017年第64回応用物理学会春季学術講演会

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一般セッション(口頭講演)

10 スピントロニクス・マグネティクス » 10.2 スピン基盤技術・萌芽的デバイス技術

[16a-501-1~11] 10.2 スピン基盤技術・萌芽的デバイス技術

10.1と10.2と10.3と10.4のコードシェアセッションあり

2017年3月16日(木) 09:00 〜 12:00 501 (501)

植村 哲也(北大)、田丸 慎吾(産総研)

11:15 〜 11:30

[16a-501-9] Spin injection into a high-mobility two-dimensional electron gas in all-epitaxial La0.7Sr0.3MnO3/ LaAlO3/ SrTiO3 using spin pumping

〇(M2)竹嶋 健人1、レ ドゥック アイン1、真藤 達也1、田中 雅明1、大矢 忍1 (1.東大院工)

キーワード:spintronics, perovskite oxide

The high-mobility two-dimensional electron gas formed at the LaAlO3/ SrTiO3 (LAO/ STO) interface exhibits many interesting properties such as large spin-orbit interaction (SOI), ferromagnetism, and superconductivity, which have attracted much attention for spintronics applications. Recently, utilizing the large SOI, a highly efficient spin-to-charge conversion via the inverse Edelstein effect (IEE) has been demonstrated at the LAO/ STO interface using spin pumping with polycrystalline permalloy (Ni81Fe19) as the spin injector. Here, instead of permalloy, we use single crystalline ferromagnetic La0.7Sr0.3MnO3 (LSMO), which can be coherently grown on LAO/ STO and is thus promising for improving the spin-to-charge conversion efficiency due to the suppression of spin scattering at the interfaces.
We have grown LSMO (60 unit cell (uc))/ LAO (2 uc) on a TiO2-terminated STO(001) substrate using a shuttered growth technique of molecular beam epitaxy (MBE). We have successfully obtained a high mobility μ up to 1.4×104 cm2/Vs at 3.5 K, which was confirmed in a reference LAO (8 uc)/ STO sample grown with the same conditions (Fig. 1). For the spin pumping experiment, the LSMO/ LAO/ STO sample was cut into a rectangular shape (1.0×2.0 mm2) with the [110] axis, which is a magnetic easy axis at low temperatures, along its short side. The sample was placed at the center of a TE011 cavity, and the static magnetic field H and the radio-frequency magnetic field hrf were applied along the short and long sides of the sample, respectively. As shown in Fig. 2, at the ferromagnetic resonance (FMR) condition with the magnetic field of Hr, the derivative microwave absorption intensity dI/dH was clearly enhanced both at 300 K and 90 K. By decreasing the temperature from 300 K to 90 K, the current density jc at the LAO/ STO interface, which was estimated by the symmetric component of the observed electromotive force V, was largely enhanced, and the sign was inverted. The electromotive force was not observed in a reference sample of LSMO on STO grown with the same conditions, thus we can eliminate the contribution of the planar Hall effect and anomalous Hall effect in the signals of Fig. 2. Therefore, our results indicate that the spin-to-charge conversion was successfully observed at the LAO/ STO interface using LSMO for the first time.