A comparison of throughput measurements and analytical capacity estimates for quantum networks finds surprising patterns.
New theoretical approach to quantum computing hardware design via an algorithm avoids some of the complex difficulties in modern quantum computers.
Researchers extend findable, accessible, interoperable, and reusable principles for datasets to scientific datasets and software.
Fluxonium qubits can build cutting-edge quantum devices that will harness the potential of quantum computing.
FAIR (findable, accessible, interoperable, reusable) principles facilitate the use of large data sets by human and machine researchers.
Scientists successfully measure high-dimensional qudits, cousins to quantum computing qubits.
Researchers develop the first 2D telecommunication-compatible quantum light source, smoothing the path toward a quantum internet.
Long predicted by theory with support from supercomputers, this combination of neutrons advances nuclear physics
Quantum technique accelerates identification of entangled materials.
Noise estimation circuits, in conjunction with other error mitigation methods, produce reliable results for quantum computer-based materials simulations
Researchers enable real-time adjustments to communication among three remote nodes in a quantum network.
Scientists use gate set tomography to discover and validate a silicon qubit breakthrough.
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