Entropy (Jun 2010)

Measurement Back-Action in Quantum Point-Contact Charge Sensing

  • Bruno Küng,
  • Simon Gustavsson,
  • Theodore Choi,
  • Ivan Shorubalko,
  • Oliver Pfäffli,
  • Fabian Hassler,
  • Gianni Blatter,
  • Matthias Reinwald,
  • Werner Wegscheider,
  • Silke Schön,
  • Thomas Ihn,
  • Klaus Ensslin

DOI
https://doi.org/10.3390/e12071721
Journal volume & issue
Vol. 12, no. 7
pp. 1721 – 1732

Abstract

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Charge sensing with quantum point-contacts (QPCs) is a technique widely used in semiconductor quantum-dot research. Understanding the physics of this measurement process, as well as finding ways of suppressing unwanted measurement back-action, are therefore both desirable. In this article, we present experimental studies targeting these two goals. Firstly, we measure the effect of a QPC on electron tunneling between two InAs quantum dots, and show that a model based on the QPC’s shot-noise can account for it. Secondly, we discuss the possibility of lowering the measurement current (and thus the back-action) used for charge sensing by correlating the signals of two independent measurement channels. The performance of this method is tested in a typical experimental setup.

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