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: Quantum simulation with Rydberg atom arrays (theory) Research Area: Atomic, molecular, and optical physics (AMO), quantum control, quantum simulation Relevant Fields: Quantum information science, quantum
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collaboration with industry partners. This work will apply optimal control theory, including machine-learning algorithms and Bayesian estimation, to coherent control of nitrogen-vacancy centers in diamond
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. The projects may also include to tackle benchmarking problems such as SAT, image processing, graph theories, boson/fermion sampling by applying classical machine/deep learning, neural network techniques and
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, mathematics and engineering to Canada. We train the quantum workforce and support industry through shared-infrastructure and expertise. We are home to 29 faculty members and a community of over 300 researchers
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contribute to the collaborative TQT research community. Principal Investigator: David G. Cory Project: Quantum dynamics of cavity interactions with spin ensembles The project involves both theory and
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contribute to the collaborative TQT research community. Principal Investigator: David G. Cory Project: Methods for coherent control and validation The project involves both theory and experiment. Number
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contribute to the collaborative TQT research community. Principal Investigator: David G. Cory Project: Superconducting electronics in magnetic fields for spin control The project involves both theory and
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are part of a team that includes expertise in fabrication, low temperature physics, electronics, quantum information theory, coherent control and magnetic resonance. The appointment will be for two years
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apply, click here . Assistant Professor – Mathematics, Science or Engineering. For more information or to apply, click here . Research Assistant Professor. For more information or to apply, click here