Rydberg atom arrays for quantum simulation, computation, and metrology

DIPC Seminars

Speaker

Daniel Barredo
Institut d'Optique-CNRS & CINN-CSIC

When

2024/10/25
12:00

Place

DIPC Seminar Room

Host

Ricardo Díez Muiño

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Rydberg atoms in arrays of optical tweezers open up new horizons for quantum simulation, computation, and metrology. We will explore how individual atoms can be trapped and arranged, creating customizable arrays that serve as a versatile platform for quantum applications. We will review ongoing efforts in the community to implement different spin models with hundreds of particles for simulating quantum many-body phenomena [1,2]. Furthermore, we will illustrate how entanglement in these systems can be harnessed to generate scalable spin squeezing for metrological applications [3]. Finally, we will provide perspectives on the developments of Rydberg atoms arrays for quantum computing, highlighting the ability of the platform to implement high-fidelity quantum gates and scalable quantum circuits [4].

References:
[1] Scholl et al., Nature 595, 233 (2021).
[2] Chen et al., Nature 616, 691 (2023).
[3] Bornet et al., Nature 621, 728 (2023).
[4] Bluvstein et al., Nature 626, 58 (2024).