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Paper detail

Algorithm for automated tuning of a quantum dot into the single-electron regime

We report an algorithm designed to perform computer-automated tuning of a single quantum dot with a charge sensor. The algorithm performs an adaptive measurement sequence of sub-sized stability diagrams until the single-electron regime is identified and reached. For each measurement, the signal processing module removes the physical background of the charge sensor to generate a binary image of charge transitions. Then, the image analysis module identifies the position and number of lines using two line detection schemes that are robust to noise and missing data.

preprint2019arXivOpen access
Maxime Lapointe-MajorOlivier GermainJulien Camirand LemyreDany Lachance-QuirionSophie RochetteFélix Camirand LemyreMichel Pioro-Ladrière
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Maxime Lapointe-MajorOlivier GermainJulien Camirand LemyreDany Lachance-QuirionSophie RochetteFélix Camirand LemyreMichel Pioro-Ladrière

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