Quantum Science with Tweezer Arrays

I will give an update on experiments in our group for quantum computing, simulation, and metrology with programmable tweezer arrays. After an overview of the field, I will describe our results on creating Bell states with ~0.9985 fidelity in a metastable to Rydberg transition. Second, I will show results for benchmarking a 60-atom quantum simulation in terms of the fidelity for reaching maximum entanglement entropy states, challenging state-of-the-art classical algorithms. Finally, I will show recent results on implementing a hybrid universal quantum computing and optical clock platform. If time permits, I will show results on novel cooling, control and entanglement of motional states.