Stochastic atomistic disorder in atomic-precision doping
ORAL
Abstract
Atomic-precision advanced manufacturing (APAM) enables the near-deterministic placement of single donors with near-atomic precision, which has been used to produce surprising device demonstrations, e.g. the single-atom transistor. However, APAM incorporates dopants into silicon using surface chemistry, where competing chemical processes lead to stochastic outcomes. Through statistical studies on arrays of nominally identical structures ranging down to single-atom features, we have measured the probability to achieve desired target outcomes for few and single-atom structures. Significant variability is measured in single- and few-donor structures. For example, we find a success rate of 68% for single-donor sites. We will explain how the results pose a significant challenge for engineering future quantum simulators and circuits.
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Presenters
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Justin Koepke
Sandia National Laboratories
Authors
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Justin Koepke
Sandia National Laboratories
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Jeffrey Ivie
Sandia National Laboratories
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Quinn Campbell
Sandia National Laboratories
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Mitchell Brickson
Sandia National Laboratories
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Peter Schultz
Sandia National Laboratories
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Richard Muller
Sandia National Laboratories
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Andrew D Baczewski
Sandia National Laboratories
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Andrew M Mounce
Center for Integrated Nanotechnologies, Sandia National Laboratories, Sandia National Laboratories
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Ezra Bussmann
Sandia National Laboratories
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Shashank Misra
Sandia National Laboratories