Addressing requirements for crosstalk-free quantum-gate operation in many-body nanofiber cavity QED systems

• URL: http://arxiv.org/abs/2509.08408v1
• Date: Wed, 10 Sep 2025 08:54:41 GMT
• Title: Addressing requirements for crosstalk-free quantum-gate operation in many-body nanofiber cavity QED systems
• Authors: Tim Keller, Seigo Kikura, Rui Asaoka, Yasunari Suzuki, Yuuki Tokunaga, Takao Aoki,
• Abstract summary: A distributed network architecture in which flying photons connect individual modules containing stationary atomic qubits is a promising approach for scaling up neutral-atom based quantum-computing platforms.<n>We consider an all-fiber based platform consisting of nanofiber cavity QED systems interconnected via conventional optical fibers.
• Score: 0.07388859384645262
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: A distributed network architecture in which flying photons connect individual modules containing stationary atomic qubits is a promising approach for scaling up neutral-atom based quantum-computing platforms. We consider an all-fiber based platform consisting of nanofiber cavity QED systems interconnected via conventional optical fibers. Each nanofiber cavity is strongly coupled to multiple atoms through its evanescent field, and atom pairs within one cavity (local) or two distant cavities (remote) are addressed for performing photon-mediated quantum logic gates on them by controlling the effective light-matter coupling via local AC Stark shifts and atom-fiber distance. We numerically evaluate the required parameters for achieving nearly crosstalk-free gate operation using these targeting methods by calculating average gate fidelities, success probabilities, and Pauli error rates for both local and remote controlled-Z gates. For the case of perfect addressing, we also analytically determine the theoretical optimum gate performance as limited by cavity reflectivity, cooperativity, and qubit level-splitting.

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