过渡金属掺杂硅纳米管中的磁性

Magnetism in transition-metal-doped silicon nanotubes.

作者信息

Singh Abhishek Kumar, Briere Tina M, Kumar Vijay, Kawazoe Yoshiyuki

机构信息

Institute for Materials Research, Tohoku University, Aoba-ku, Sendai 980-8577, Japan.

出版信息

Phys Rev Lett. 2003 Oct 3;91(14):146802. doi: 10.1103/PhysRevLett.91.146802. Epub 2003 Sep 30.

DOI:10.1103/PhysRevLett.91.146802

PMID:14611544

Abstract

Using first-principles density functional calculations, we show that hexagonal metallic silicon nanotubes can be stabilized by doping with 3d transition metal atoms. Finite nanotubes doped with Fe and Mn have high local magnetic moments, whereas Co-doped nanotubes have low values and Ni-doped nanotubes are mostly nonmagnetic. The infinite Si24Fe4 nanotube is found to be ferromagnetic with nearly the same local magnetic moment on each Fe atom as in bulk iron. Mn-doped nanotubes are antiferromagnetic, but a ferrromagnetic state lies only 0.03 eV higher in energy with a gap in the majority spin bands near the Fermi energy. These materials are interesting for silicon-based spintronic devices and other nanoscale magnetic applications.

摘要

通过第一性原理密度泛函计算，我们表明，掺杂3d过渡金属原子可使六方金属硅纳米管稳定。掺杂Fe和Mn的有限纳米管具有高的局域磁矩，而Co掺杂的纳米管磁矩值较低，Ni掺杂的纳米管大多为非磁性。发现无限长的Si24Fe4纳米管是铁磁性的，每个Fe原子上的局域磁矩与体相铁中几乎相同。Mn掺杂的纳米管是反铁磁性的，但铁磁态的能量仅高0.03 eV，且在费米能级附近的多数自旋带中存在能隙。这些材料对于基于硅的自旋电子器件和其他纳米级磁性应用具有重要意义。

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过渡金属掺杂硅纳米管中的磁性

Magnetism in transition-metal-doped silicon nanotubes.

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