Dynamic optimal memory allocation in asymmetric quantum repeaters produces statistical lower bounds showing significantly higher fidelity with rates comparable to standard sequential repeaters.
A quantum router architecture for high-fidelity entanglement flows in quantum networks,
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Balancing Quantum Memories in Asymmetric Repeaters for High-Fidelity Entanglement Distribution
Dynamic optimal memory allocation in asymmetric quantum repeaters produces statistical lower bounds showing significantly higher fidelity with rates comparable to standard sequential repeaters.