Journal article
Framework for atomic-level characterisation of quantum computer arrays by machine learning
Muhammad Usman, Yi Zheng Wong, Charles D Hill, Lloyd CL Hollenberg
npj Computational Materials | Nature Research (part of Springer Nature) | Published : 2020
Abstract
Atomic-level qubits in silicon are attractive candidates for large-scale quantum computing; however, their quantum properties and controllability are sensitive to details such as the number of donor atoms comprising a qubit and their precise location. This work combines machine learning techniques with million-atom simulations of scanning tunnelling microscopic (STM) images of dopants to formulate a theoretical framework capable of determining the number of dopants at a particular qubit location and their positions with exact lattice site precision. A convolutional neural network (CNN) was trained on 100,000 simulated STM images, acquiring a characterisation fidelity (number and absolute don..
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Grants
Awarded by Australian Research Council
Funding Acknowledgements
This work was supported by the Australian Research Council (ARC) funded Center for Quantum Computation and Communication Technology (CE170100012) and partially funded by the USA Army Research Office (W911NF-08-1-0527). Computational resources were provided by the National Computing Infrastructure (NCI) and Pawsey Supercomputing Center through National Computational Merit Allocation Scheme (NCMAS).