Rigorous security proofs for variable-length QKD, phase-error bounding with imperfect detectors, marginal-constrained entropy accumulation, and authentication reductions place practical QKD on firmer mathematical ground.
Quantum repeaters: From quantum networks to the quantum internet
7 Pith papers cite this work. Polarity classification is still indexing.
7
Pith papers citing it
citation-role summary
background 4
citation-polarity summary
fields
quant-ph 7roles
background 4polarities
background 4representative citing papers
A waveform-offset method extends the QICK framework to deliver 200 ps timing resolution on inexpensive RF SoC devices, allowing precise hyperfine spectroscopy of individual 13C spins in NV centers.
A hybrid GHZ-BSM routing strategy outperforms pure BSM routing in square grid quantum networks but requires global-information adaptations to beat BSM in complex topologies such as Waxman, scale-free, and SURFnet.
Bayesian optimization reliably identifies optimal protocols that maximize secret-key rates for heterogeneous quantum repeater chains with arbitrary nodes.
Large qLDPC blocks in distributed quantum computing enable Pauli-based computation to run up to 10x faster than surface codes for optimization algorithms by using spare nodes to bypass serialization bottlenecks.
New building block and protocol for all-photonic quantum repeaters using repeater graph states that reduces emissive memories at end nodes and integrates with memory-based systems.
Quantum time synchronization protocols do not provide a near-term replacement for classical methods in most applications because time transfer precision remains the limiting factor, though they add value for physical-layer security.
citing papers explorer
-
Rigorous Security Proofs for Practical Quantum Key Distribution
Rigorous security proofs for variable-length QKD, phase-error bounding with imperfect detectors, marginal-constrained entropy accumulation, and authentication reductions place practical QKD on firmer mathematical ground.
-
Sub-nanosecond control for spin-defect quantum memories with a low-cost, compact FPGA platform
A waveform-offset method extends the QICK framework to deliver 200 ps timing resolution on inexpensive RF SoC devices, allowing precise hyperfine spectroscopy of individual 13C spins in NV centers.
-
Routing Entanglement in Complex Quantum Networks Using GHZ States
A hybrid GHZ-BSM routing strategy outperforms pure BSM routing in square grid quantum networks but requires global-information adaptations to beat BSM in complex topologies such as Waxman, scale-free, and SURFnet.
-
Bayesian Optimization for Repeater Protocols
Bayesian optimization reliably identifies optimal protocols that maximize secret-key rates for heterogeneous quantum repeater chains with arbitrary nodes.
-
Space-Time Tradeoffs of Pauli-Based Computation in Distributed qLDPC Architectures
Large qLDPC blocks in distributed quantum computing enable Pauli-based computation to run up to 10x faster than surface codes for optimization algorithms by using spare nodes to bypass serialization bottlenecks.
-
Architecture and protocols for all-photonic quantum repeaters
New building block and protocol for all-photonic quantum repeaters using repeater graph states that reduces emissive memories at end nodes and integrates with memory-based systems.
-
Quantum Protocols for Time Synchronisation and Distribution: A Critical Assessment
Quantum time synchronization protocols do not provide a near-term replacement for classical methods in most applications because time transfer precision remains the limiting factor, though they add value for physical-layer security.