An inverse design framework based on guided-mode expansion and automatic differentiation optimizes a non-periodic circular cavity to a quality factor of ~9000 with Gaussian-like far-field emission, an order of magnitude above periodic bullseye designs.
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Arqon delivers reliable quantum network service via admission control and scheduling that satisfies defined reliability requirements for accepted demands in static topologies, with O(k^3) and O(N^3) complexity.
A distributed switching protocol for unbuffered quantum networks uses cooperative BSA selection and bi-path reservations to achieve high link success rates under load in simulations.
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Optimization of circular cavities via guided-mode expansion method based inverse design
An inverse design framework based on guided-mode expansion and automatic differentiation optimizes a non-periodic circular cavity to a quality factor of ~9000 with Gaussian-like far-field emission, an order of magnitude above periodic bullseye designs.
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Arqon: A suite of control applications enabling a reliable quantum network
Arqon delivers reliable quantum network service via admission control and scheduling that satisfies defined reliability requirements for accepted demands in static topologies, with O(k^3) and O(N^3) complexity.
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A Distributed Switching Protocol for Quantum Networks
A distributed switching protocol for unbuffered quantum networks uses cooperative BSA selection and bi-path reservations to achieve high link success rates under load in simulations.