QuaNTUM: A Modular Quantum Communication Testbed for Scalable
By uniting fiber and free-space links with scalable hardware and open protocols, QuaNTUM offers a basis that could adapt to future hybrid quantum networks, supporting both current
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A ber array architecture for atom quantum computing
ighly parallel gate operations remains a challenge. Here, we propose a fiber array architecture for atom quantum computing capab e of fully independent control of individual atoms. The trapping and
Custom Fiber Array, PBS, Optical Switch And Other Custom Optical
Discovering a range of custom optical assemblies, including 2-dimensional fiber array, linear fiber array, PM fiber devices, high-temperature optical components, and optical switch for coherent optical
Chinese Academy of Sciences, Wuhan 430071, China
ly parallel gate operations remains a challenge. Here, we propose a fiber array architecture for atom quantum computing capable f fully independent control of individual atoms. The trapping and
Custom Fiber Array, PBS, Optical Switch And Other
Discovering a range of custom optical assemblies, including 2-dimensional fiber array, linear fiber array, PM fiber devices, high-temperature optical components,
Scalable Networking of Neutral-Atom Qubits: Nanofiber-Based
In this paper, we analyze and discuss potential pathways for scaling up neutral-atom quantum computers beyond a single module (Fig. 1) from the perspectives of hardware development
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A scalable, modular hardware platform can integrate thousands of interconnected qubits onto a customized integrated circuit. This “quantum-system-on-chip” (QSoC) architecture enables
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Neutral-atom quantum computers are having a moment. A new Nature Communications study shows a fiber array architecture that locks a tightly focused trap beam and a qubit-control
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A fiber array architecture for atom quantum computing
To overcome these challenges, we propose a fiber array architecture to independently control single-atom qubits in atom arrays for quantum computing.
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We investigated and tested the setup needed to share quantum information across a metropolitan network based on single photon communication. First, we characterised the new set of super