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networks and their applications. ARTICLE doi:10.1038/nature11023 An elementary quantum network of single atoms in optical cavities 1 1 1 1 1 1 1 Stephan Ritter , Christian No¨lleke , Carolin Hahn , Andreas ...
limited the potential of elementary quantum networks . We propose a platform for interfacing quantum processors comprising neutral atom arrays with telecom-band photons in a multiplexed network architecture ...
limited the potential of elementary quantum networks . We propose a platform for interfacing quantum processors comprising neutral atom arrays with telecom-band photons in a multiplexed network architecture ...
for long-distance quantum communication and large-scale quantum simulation. This paper highlights a first implementation of an elementary quantum network with two fibre-linked high-finesse optical resonators ...
Abstract: We report on an elementary quantum network of two atomic ions separated by 230 m. The ions are trapped in different buildings and connected with 520(2) m of optical fiber. At each network ...
Abstract: We report on an elementary quantum network of two atomic ions separated by 230 m. The ions are trapped in different buildings and connected with 520(2) m of optical fiber. At each network ...
photon detectors 2 that absorb a photon to trigger a ‘click’. The long-sought QND detection of a flying photon was recently demonstrated in the optical domain using a single atom in a cavity 11,12 ...
Generating strong interactions between single quanta of light and matter is central to quantum information science, and a key component of quantum computers and long-distance quantum networks ...
by a single atom in the optical cavity has been realized in an experiment [5]. However, here we focus on the quantum network comprising heterogeneous nodes, which is more general and can combine advantages ...
proposed and realized using, e.g., ultracold atoms in optical lattices, ultracold trapped ions, atoms in arrays of cavities , atoms /ions in arrays of traps, quantum dots, photonic networks , or superconducting ...
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