Scientific Reports (Aug 2019)

Tunable diameter and spacing of double Ge quantum dots using highly-controllable spacers and selective oxidation of SiGe

  • Tsung-Lin Huang,
  • Kang-Ping Peng,
  • Ching-Lun Chen,
  • Horng-Chih Lin,
  • Tom George,
  • Pei-Wen Li

DOI
https://doi.org/10.1038/s41598-019-47806-0
Journal volume & issue
Vol. 9, no. 1
pp. 1 – 8

Abstract

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Abstract We report the novel tunability of the diameters and spacings of paired Ge double quantum dots (DQDs) using nano-spacer technology in combination with selective oxidation of Si0.85Ge0.15 at high temperature. Pairs of spherical-shaped Ge QDs were formed by the selective oxidation of poly-SiGe spacer islands at each sidewall corner of the nano-patterned Si3N4/poly-Si ridges. The diameters of the Ge spherical QDs are essentially determined by geometrical conditions (height, width, and length) of the nano-patterned spacer islands of poly-SiGe, which are tunable by adjusting the process times of deposition and etch back for poly-SiGe spacer layers in combination with the exposure dose of electron-beam lithography. Most importantly, the separations between the Ge DQDs are controllable by adjusting the widths of the poly-Si/Si3N4 ridges and the thermal oxidation times. Our self-organization and self-alignment approach achieved high symmetry within the Ge DQDs in terms of the individual QD diameters as well as the coupling barriers between the QDs and external electrodes in close proximity.