Hybrid cavity quantum electrodynamic with Rydberg atoms and superconducting (...) - Département de Physique de l'Ecole Normale supérieure

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Hybrid cavity quantum electrodynamic with Rydberg atoms and superconducting qubits ETH Zurich

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Light-matter enhancement in cavity quantum electrodynamics systems is a powerful resource for quantum information processing. Superconducting qubits coupled to microwave resonators are among the most promising systems to build a quantum computer. Indeed, as solid state micron-scale devices they offer excellent scalability, and their strong coupling allows to perform fast entanglement and measurement operations in a few tens of nanoseconds. However, these devices suffer from relatively low coherence times on the order of ten microseconds and they are limited to interactions with microwave photons. In contrast, atoms have very long coherence times which can reach minute scale and also provide optical transitions. Moreover, when they are excited to Rydberg states, they also couple strongly to microwave electromagnetic modes.

In our lab, we aim to combine the advantages of both systems by coupling Rydberg atoms to superconducting qubits in a hybrid cavity quantum electrodynamics experiment.

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enseignement@phys.ens.fr

Hybrid cavity quantum electrodynamic with Rydberg atoms and superconducting qubits ETH Zurich

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