Strong g-Factor Anisotropy in Hole Quantum Dots Defined in Ge/Si Nanowires
Preprint 2007 English
Authors
SR
Stefano Roddaro
AF
Andreas Fuhrer
CF
Carina Fasth
Abstract
1 min read
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.
Masiar Sistani, Jovian Delaforce, R. B. G. Kramer, Nicolas Roch, Minh Anh Luong, M. den Hertog, Éric Robin, J. Smoliner, Jun Yao, Charles M. Lieber, Cécile Naud, Alois Lugstein, O. Buisson
Masiar Sistani, Jovian Delaforce, R. B. G. Kramer, Nicolas Roch, Minh Anh Luong, M. den Hertog, Éric Robin, J. Smoliner, Jun Yao, Charles M. Lieber, Cécile Naud, Alois Lugstein, O. Buisson
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