自旋电子学
石墨烯
自旋(空气动力学)
纳米技术
材料科学
实现(概率)
联轴节(管道)
自旋工程
兴奋剂
凝聚态物理
物理
光电子学
铁磁性
自旋极化
量子力学
统计
热力学
电子
冶金
数学
作者
Han Zhou,Xiuli Hu,Wei‐Hai Fang,Neil Qiang Su
摘要
Graphene materials offer attractive possibilities in spintronics due to their unique atomic and electronic structures, which is in contrast to their limited applications in the design of sophisticated spintronic devices. This should be attributed to the lack of knowledge about the intrinsic characteristics of graphene materials, especially the diverse correlations between sites within the materials and their roles in spin-signal generation and propagation. This work comprehensively studies the spin couplings between transition metal atoms doped on graphene and reveals their potential application in spintronic device design through the realization of various logic gates. In addition, the effects of the distance between doped metal atoms and the number of carbon layers on the logic gate implementation further verify that the spin-coupling effect can exhibit a certain distance dependence and space propagation. The achievements in this work uncover the potential value of graphene materials and are expected to open up new avenues for exploring their application in the design of sophisticated spintronic devices.
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