Tunable magnetic interaction in hydrogenated epitaxial graphene modulated by the SiC substrate

Pengcheng Chen; Yuanchang Li; Wenhui Duan

doi:10.1103/PhysRevB.92.205433

Tunable magnetic interaction in hydrogenated epitaxial graphene modulated by the SiC substrate

Pengcheng Chen, Yuanchang Li, Wenhui Duan

科研成果: 期刊稿件 › 文章 › 同行评审

3 引用（Scopus）

摘要

We show that the d0 ferromagnetism with high Curie temperature (Tc) can be achieved in the electron-doped hydrogenated epitaxial graphene on certain SiC substrates through first-principles calculations. The pristine systems are found to be Mott insulators regardless of SiC polytype (2H,4H, or 6H) which, however, plays a significant role in the modulation of magnetic interaction. Carrier doping enhances the ferromagnetic coupling due to the double-exchange mechanism and thus realizes the phase transition from antiferromagnetism to ferromagnetism. A Tc of around 400 K is predicted for graphene on the 2H-SiC substrate. We employ a nondegenerate Hubbard model to demonstrate how the SiC affects the interfacial magnetism in intra-atomic Coulomb repulsion and intersite hopping interactions.

源语言	英语
文章编号	205433
期刊	Physical Review B - Condensed Matter and Materials Physics
卷	92
期	20
DOI	https://doi.org/10.1103/PhysRevB.92.205433
出版状态	已出版 - 30 11月 2015
已对外发布	是

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Chen, P., Li, Y., & Duan, W. (2015). Tunable magnetic interaction in hydrogenated epitaxial graphene modulated by the SiC substrate. Physical Review B - Condensed Matter and Materials Physics, 92(20), 文章 205433. https://doi.org/10.1103/PhysRevB.92.205433

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abstract = "We show that the d0 ferromagnetism with high Curie temperature (Tc) can be achieved in the electron-doped hydrogenated epitaxial graphene on certain SiC substrates through first-principles calculations. The pristine systems are found to be Mott insulators regardless of SiC polytype (2H,4H, or 6H) which, however, plays a significant role in the modulation of magnetic interaction. Carrier doping enhances the ferromagnetic coupling due to the double-exchange mechanism and thus realizes the phase transition from antiferromagnetism to ferromagnetism. A Tc of around 400 K is predicted for graphene on the 2H-SiC substrate. We employ a nondegenerate Hubbard model to demonstrate how the SiC affects the interfacial magnetism in intra-atomic Coulomb repulsion and intersite hopping interactions.",

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N2 - We show that the d0 ferromagnetism with high Curie temperature (Tc) can be achieved in the electron-doped hydrogenated epitaxial graphene on certain SiC substrates through first-principles calculations. The pristine systems are found to be Mott insulators regardless of SiC polytype (2H,4H, or 6H) which, however, plays a significant role in the modulation of magnetic interaction. Carrier doping enhances the ferromagnetic coupling due to the double-exchange mechanism and thus realizes the phase transition from antiferromagnetism to ferromagnetism. A Tc of around 400 K is predicted for graphene on the 2H-SiC substrate. We employ a nondegenerate Hubbard model to demonstrate how the SiC affects the interfacial magnetism in intra-atomic Coulomb repulsion and intersite hopping interactions.

AB - We show that the d0 ferromagnetism with high Curie temperature (Tc) can be achieved in the electron-doped hydrogenated epitaxial graphene on certain SiC substrates through first-principles calculations. The pristine systems are found to be Mott insulators regardless of SiC polytype (2H,4H, or 6H) which, however, plays a significant role in the modulation of magnetic interaction. Carrier doping enhances the ferromagnetic coupling due to the double-exchange mechanism and thus realizes the phase transition from antiferromagnetism to ferromagnetism. A Tc of around 400 K is predicted for graphene on the 2H-SiC substrate. We employ a nondegenerate Hubbard model to demonstrate how the SiC affects the interfacial magnetism in intra-atomic Coulomb repulsion and intersite hopping interactions.

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Tunable magnetic interaction in hydrogenated epitaxial graphene modulated by the SiC substrate

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