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arxiv: 1912.02777 · v1 · pith:ZTVUJYVO · submitted 2019-12-05 · cond-mat.mes-hall · quant-ph

Automated tuning of double quantum dots into specific charge states using neural networks

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classification cond-mat.mes-hall quant-ph
keywords quantumtuningalgorithmautomatedchargedevicedotsdouble
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While quantum dots are at the forefront of quantum device technology, tuning multi-dot systems requires a lengthy experimental process as multiple parameters need to be accurately controlled. This process becomes increasingly time-consuming and difficult to perform manually as the devices become more complex and the number of tuning parameters grows. In this work, we present a crucial step towards automated tuning of quantum dot qubits. We introduce an algorithm driven by machine learning that uses a small number of coarse-grained measurements as its input and tunes the quantum dot system into a pre-selected charge state. We train and test our algorithm on a GaAs double quantum dot device and we consistently arrive at the desired state or its immediate neighborhood.

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