石墨烯中磁吸附原子的近藤量子临界性。

Kondo quantum criticality of magnetic adatoms in graphene.

机构信息

Department of Physics, University of Illinois at Urbana-Champaign, 1110 W. Green Street, Urbana, Illinois 61801, USA.

出版信息

Phys Rev Lett. 2011 Jan 7;106(1):016801. doi: 10.1103/PhysRevLett.106.016801. Epub 2011 Jan 4.

DOI:10.1103/PhysRevLett.106.016801

Abstract

We examine the exchange Hamiltonian for magnetic adatoms in graphene with localized inner shell states. On symmetry grounds, we predict the existence of a class of orbitals that lead to a distinct class of quantum critical points in graphene, where the Kondo temperature scales as TK∝|J-Jc|1/3 near the critical coupling Jc, and the local spin is effectively screened by a super-Ohmic bath. For this class, the RKKY interaction decays spatially with a fast power law ∼1/R7. Away from half filling, we show that the exchange coupling in graphene can be controlled across the quantum critical region by gating. We propose that the vicinity of the Kondo quantum critical point can be directly accessed with scanning tunneling probes and gating.

摘要

我们研究了具有局域内壳态的石墨烯中磁 adatoms 的交换哈密顿量。根据对称性，我们预测存在一类轨道，这些轨道在石墨烯中导致一类独特的量子临界点，其中近临界耦合 Jc 时的康顿温度 TK∝|J-Jc|1/3 ，并且局部自旋被超欧姆浴有效地屏蔽。对于这类轨道，RKKY 相互作用在空间上以快速幂律 ∼1/R7 衰减。在非满填充情况下，我们表明石墨烯中的交换耦合可以通过门控来控制跨越量子临界点区域。我们提出可以使用扫描隧道探针和门控直接接近康顿量子临界点附近。

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石墨烯中磁吸附原子的近藤量子临界性。

Kondo quantum criticality of magnetic adatoms in graphene.

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