PRX Quantum (Dec 2022)

Parity and Singlet-Triplet High-Fidelity Readout in a Silicon Double Quantum Dot at 0.5 K

  • David J. Niegemann,
  • Victor El-Homsy,
  • Baptiste Jadot,
  • Martin Nurizzo,
  • Bruna Cardoso-Paz,
  • Emmanuel Chanrion,
  • Matthieu Dartiailh,
  • Bernhard Klemt,
  • Vivien Thiney,
  • Christopher Bäuerle,
  • Pierre-André Mortemousque,
  • Benoit Bertrand,
  • Heimanu Niebojewski,
  • Maud Vinet,
  • Franck Balestro,
  • Tristan Meunier,
  • Matias Urdampilleta

DOI
https://doi.org/10.1103/PRXQuantum.3.040335
Journal volume & issue
Vol. 3, no. 4
p. 040335

Abstract

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Pauli-spin-blockade (PSB) measurements have so far achieved the highest fidelity of spin readout in semiconductor quantum dots, overcoming the 99% threshold. Moreover, in contrast to energy-selective readout, PSB is less error prone to thermal energy, an important feature for large-scale architectures that could be operated at temperatures above a few hundreds of millikelvins. In this work, we use rf reflectometry on a single-lead quantum dot to perform charge sensing and to probe the spin state of a double quantum dot at 0.5 K. At this relatively elevated temperature, we characterize both singlet-triplet and parity readout, which are complementary measurements to perform a complete readout of a two-spin system. We demonstrate high-fidelity spin readout with an average fidelity above 99.9 % for a readout time of 20 µs and 99 % for 4 µs. Finally, we succeed in initializing a singlet state in a single dot with a fidelity higher than 99 % and separate the two electrons while retaining the same spin state with a 95.6 % fidelity.