New Journal of Physics (Jan 2016)

Extracting inter-dot tunnel couplings between few donor quantum dots in silicon

  • S K Gorman,
  • M A Broome,
  • J G Keizer,
  • T F Watson,
  • S J Hile,
  • W J Baker,
  • M Y Simmons

DOI
https://doi.org/10.1088/1367-2630/18/5/053041
Journal volume & issue
Vol. 18, no. 5
p. 053041

Abstract

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The long term scaling prospects for solid-state quantum computing architectures relies heavily on the ability to simply and reliably measure and control the coherent electron interaction strength, known as the tunnel coupling, t _c . Here, we describe a method to extract the t _c between two quantum dots (QDs) utilising their different tunnel rates to a reservoir. We demonstrate the technique on a few donor triple QD tunnel coupled to a nearby single-electron transistor (SET) in silicon. The device was patterned using scanning tunneling microscopy-hydrogen lithography allowing for a direct measurement of the tunnel coupling for a given inter-dot distance. We extract ${t}_{{\rm{c}}}=5.5\pm 1.8\;{\rm{GHz}}$ and ${t}_{{\rm{c}}}=2.2\pm 1.3\;{\rm{GHz}}$ between each of the nearest-neighbour QDs which are separated by 14.5 nm and 14.0 nm, respectively. The technique allows for an accurate measurement of t _c for nanoscale devices even when it is smaller than the electron temperature and is an ideal characterisation tool for multi-dot systems with a charge sensor.

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