Description
In quantum information science, encoding information in atomic states and reading it through light is essential for building quantum networks. Enhancing light-matter interaction is crucial for improving the efficiency of such processes, and optical cavities have emerged as a powerful tool in this regard. This project experimentally investigates the feasibility of measuring a collective state of a lattice of ultracold cesium atoms using cavity-enhanced off-resonant dispersive interactions.
Field of study | Quantum Physics |
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Supervisor | Eugene Polzik |