Enhanced spin injection into single layer graphene with atomically smooth MgO barrier

68th Device Research Conference Pub Date : 2010-06-21 DOI:10.1109/DRC.2010.5551950
W. Han, K. Pi, K. McCreary, Yan Li, R. Kawakami
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Abstract

Single layer graphene (SLG) is a promising material for spintronics due to predictions of long spin life time, and unusual spin dependent behaviors such as half-metallic ferromagnetism for graphene nanoribbons. Previously, we fabricated SLG spin valves utilizing transparent contacts Co/SLG with MgO masking layer, and observed gate tunable spin transport at room temperature (RT) [1]. For the non-local MR measurement (Figure 1a), spin is injected at electrode E2 and detected at E3. Figure 1b shows the non-local MR loop for a SLG spin valve with transparent contacts as the magnetic field is swept up (black curve) and swept down (red curve).
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具有原子光滑MgO势垒的单层石墨烯增强自旋注入
单层石墨烯(SLG)是一种很有前途的自旋电子学材料,因为它具有较长的自旋寿命和不寻常的自旋依赖行为,如石墨烯纳米带的半金属铁磁性。此前,我们利用带有MgO掩蔽层的透明触点Co/SLG制作了SLG自旋阀,并在室温(RT)下观察了栅极可调自旋输运[1]。对于非局部MR测量(图1a),在电极E2处注入自旋,在E3处检测。图1b显示了当磁场向上扫瞄(黑色曲线)和向下扫瞄(红色曲线)时,带有透明触点的SLG自旋阀的非局部磁流变回路。
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68th Device Research Conference
68th Device Research Conference
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