English

Charge detection in an array of CMOS quantum dots

Mesoscale and Nanoscale Physics 2020-09-02 v2

Abstract

The recent development of arrays of quantum dots in semiconductor nanostructures highlights the progress of quantum devices toward large scale. However, how to realize such arrays on a scalable platform such as silicon is still an open question. One of the main challenge resides in the detection of charges within the array. It is a prerequisite functionality to initialize a desired charge state and readout spins through spin-to-charge conversion mechanisms. In this paper, we use two methods based on either a single-lead charge detector, or a reprogrammable single electron transistor. Thanks to these methods, we study the charge dynamics and sensitivity by performing single shot detection of the charge. Finally, we can probe the charge stability at any node of a linear array and assess the Coulomb disorder in the structure. We find an electrochemical potential fluctuation induced by charge noise comparable to that reported in other silicon quantum dots.

Keywords

Cite

@article{arxiv.2004.01009,
  title  = {Charge detection in an array of CMOS quantum dots},
  author = {Emmanuel Chanrion and David J. Niegemann and Benoit Bertrand and Cameron Spence and Baptiste Jadot and Jing Li and Pierre-André Mortemousque and Louis Hutin and Romain Maurand and Xavier Jehl and Marc Sanquer and Silvano De Franceschi and Christopher Bäuerle and Franck Balestro and Yann-Michel Niquet and Maud Vinet and Tristan Meunier and Matias Urdampilleta},
  journal= {arXiv preprint arXiv:2004.01009},
  year   = {2020}
}

Comments

10 pages, 6 figures

R2 v1 2026-06-23T14:36:47.895Z