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悬浮菱面体堆叠少层石墨烯中的栅极可调磁性和巨磁阻效应

Gate-Tunable Magnetism and Giant Magnetoresistance in Suspended Rhombohedral-Stacked Few-Layer Graphene.

作者信息

Lee Yongjin, Che Shi, Velasco Jairo, Gao Xueshi, Shi Yanmeng, Tran David, Baima Jacopo, Mauri Francesco, Calandra Matteo, Bockrath Marc, Lau Chun Ning

机构信息

Samsung Semiconductor R&D Center, Hwasung-si, Gyeonggi-do 17113, South Korea.

Department of Physics and Astronomy, University of California, Riverside, California 92521, United States.

出版信息

Nano Lett. 2022 Jul 13;22(13):5094-5099. doi: 10.1021/acs.nanolett.2c00466. Epub 2022 Jun 17.

Abstract

Conventionally, magnetism arises from the strong exchange interaction among the magnetic moments of d- or f-shell electrons. It can also emerge in perfect lattices from nonmagnetic elements, such as that exemplified by the Stoner criterion. Here we report tunable magnetism in suspended rhombohedral-stacked few-layer graphene (r-FLG) devices with flat bands. At small doping levels ( ∼ 10 cm), we observe prominent conductance hysteresis and giant magnetoconductance that exceeds 1000% as a function of magnetic fields. Both phenomena are tunable by density and temperature and disappear at > 10 cm or > 5 K. These results are confirmed by first-principles calculations, which indicate the formation of a half-metallic state in doped r-FLG, in which the magnetization is tunable by electric field. Our combined experimental and theoretical work demonstrate that magnetism and spin polarization, arising from the strong electronic interactions in flat bands, emerge in a system composed entirely of carbon atoms.

摘要

传统上,磁性源于d壳层或f壳层电子磁矩之间的强交换相互作用。它也可以在由非磁性元素构成的完美晶格中出现,例如以斯托纳准则为例。在此,我们报道了具有平带的悬浮菱面体堆叠少层石墨烯(r-FLG)器件中的可调磁性。在低掺杂水平(~10 cm)下,我们观察到显著的电导滞后以及作为磁场函数超过1000%的巨磁电导。这两种现象均可通过密度和温度进行调节,并在掺杂浓度>10 cm或温度>T>5 K时消失。第一性原理计算证实了这些结果,其表明在掺杂的r-FLG中形成了半金属态,其中磁化强度可通过电场调节。我们结合实验和理论的工作表明,由平带中的强电子相互作用产生的磁性和自旋极化出现在一个完全由碳原子组成的系统中。

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