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Strong g-Factor Anisotropy in Hole Quantum Dots Defined in Ge/Si Nanowires

Mesoscale and Nanoscale Physics 2007-06-21 v1
Authors: S. Roddaro , A. Fuhrer , C. Fasth , L. Samuelson , J. Xiang , C. M. Lieber
Comments: 5 pages, 3 figures
View on arXiv PDF

Abstract

We demonstrate fully tunable single and double quantum dots in a one-dimensional hole system based on undoped Ge/Si core-shell nanowire heterostructures. The local hole density along the nanowire is controlled by applying voltages to five top gate electrodes with a periodicity of 80 nm, insulated from the wire by a 20 nm-thick HfO_2 dielectric film. Low-temperature transport measurements were used to investigate the magnetic field dependence of Coulomb blockade peaks in a single quantum dot and indicate a strongly anisotropic g-factor with |g_para| = 0.60 +/- 0.03 and |g_perp| < 0.12.

Keywords

nanowire physics spin physics in semiconductors quantum dots

Cite

@article{arxiv.0706.2883,
  title  = {Strong g-Factor Anisotropy in Hole Quantum Dots Defined in Ge/Si Nanowires},
  author = {S. Roddaro and A. Fuhrer and C. Fasth and L. Samuelson and J. Xiang and C. M. Lieber},
  journal= {arXiv preprint arXiv:0706.2883},
  year   = {2007}
}

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