Proposes a resource-driven framework for multipartite entanglement reconfiguration in quantum networks via structural design parameters and the Entanglement Rolling protocol, with closed-form noise analysis using the Noisy Stabilizer Formalism.
Flexible qubit allocation of network resource states
2 Pith papers cite this work. Polarity classification is still indexing.
fields
quant-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
A new routing framework exploits multipartite entanglement complementation to enable direct 1-hop connectivity for non-adjacent pairs in quantum networks and supplies a polynomial-time algorithm that achieves up to 60% hop reduction while bypassing NP-complete path discovery.
citing papers explorer
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A Resource-Driven Framework for Configurable Entanglement in Quantum Networks
Proposes a resource-driven framework for multipartite entanglement reconfiguration in quantum networks via structural design parameters and the Entanglement Rolling protocol, with closed-form noise analysis using the Noisy Stabilizer Formalism.
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Quantum Routing Beyond Pathfinding: Multipartite Entanglement Complementation
A new routing framework exploits multipartite entanglement complementation to enable direct 1-hop connectivity for non-adjacent pairs in quantum networks and supplies a polynomial-time algorithm that achieves up to 60% hop reduction while bypassing NP-complete path discovery.