The 66th JSAP Spring Meeting, 2019

Presentation information

Poster presentation

10 Spintronics and Magnetics » 10 Spintronics and Magnetics (Poster)

[9p-PB1-1~80] 10 Spintronics and Magnetics (Poster)

Sat. Mar 9, 2019 1:30 PM - 3:30 PM PB1 (PB)

1:30 PM - 3:30 PM

[9p-PB1-75] Demonstration of spin xor operation with Si spin channel

〇(M1)Ryoma Ishihara1, Soobeom Lee1, Yuichiro Ando1, Ryo Ohshima1, Yoshishige Suzuki2, Hayato Koike3, Masashi Shiraishi1 (1.Kyoto Univ., 2.Osaka Univ., 3.Corp.)

Keywords:spin transistor

Magnetologic gate (MLG) using spin accumulation and spin transport in the semiconductor was proposed as an path way to realize a reconfigurable and energy saving circuit [1,2]. MLG is composed of two spin xor device consisting three ferromagnetic electrodes contacting semiconductor spin channel. Si is one of the candidate for the spin channel because it has a good spin coherence and large spin drift effect which is required for the spin xor operation was demonstrated [3]. In this study, we demonstrate the spin xor operation with Si spin channel at room temperature.
The device geometry and measurement circuit of the spin xor operation are schematically shown in Fig. 1. Nondegenerate n-Si channel was contacted by Co/Fe electrodes through MgO tunnel barriers (labeled as A, B, and M in Fig. 1(a)). The spin xor device outputs three values by changing magnetization directions of two input electrodes A and B. Here, each input, i.e. 0 or 1, is defined by the magnetization of the FM electrode as shown in Fig. 1(a). The magnetization of the electrode M was kept 1 during the logic operation. Spin polarized electrons were accumulated by a source current (Is) under the ferromagnetic electrodes A and B, and three different output states were measured on the electrode M depending on the relative configuration of the input magnetization. Is was set to be 1.2 mA. Then, electrochemical potentials under electrode B for (0,0) and (1,1) of input states are modified to the equal each other by spin drift effect, resulting in three different output signals in electrode M. Fig. 1(b) shows the experimental demonstration of the xor logic operation with Si spin channel. Clear three outputs were obtained from the electrode M as requested for the MLG-operation. Detailed discussion is given in the presentation.
[1] H. Dery et al., Nature 447, 573 (2007).
[2] H. Wen et al., Phys. Rev. Applied 5, 044003 (2016).
[3] T. Tahara et al.,Phys. Rev. B 93, 214406 (2016).