Adaptive and optimal imaging of quantum optical systems for quantum computing

Assignee

• UNIVERSITY OF MARYLAND, COLLEGE PARK · US

Inventors

• Christopher Monroe · Ellicott City, US
• Jiehang ZHANG · College Park, US
• David WONG-CAMPOS · Hyattsville, US
• Antonios KYPRIANIDIS · Takoma Park, US
• Patrick Michael BECKER · College Park, US

Key dates

Classification

• Technology area (CPC H)Electricity
• CPC primaryH10D62/814
• WIPO fieldMeasurement
• WIPO sectorInstruments

Abstract

The disclosure describes an adaptive and optimal imaging of individual quantum emitters within a lattice or optical field of view for quantum computing. Advanced image processing techniques are described to identify individual optically active quantum bits (qubits) with an imager. Images of individual and optically-resolved quantum emitters fluorescing as a lattice are decomposed and recognized based on fluorescence. Expected spatial distributions of the quantum emitters guides the processing, which uses adaptive fitting of peak distribution functions to determine the number of quantum emitters in real time. These techniques can be used for the loading process, where atoms or ions enter the trap one-by-one, for the identification of solid-state emitters, and for internal state-detection of the quantum emitters, where each emitter can be fluorescent or dark depending on its internal state. This latter application is relevant to efficient and fast detection of optically active qubits in quantum simulations and quantum computing.