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Guillermo Currįs-Lorenzo
Guillermo Currįs-Lorenzo
Vigo Quantum Communication Center, University of Vigo
Verified email at vqcc.uvigo.es
Title
Cited by
Cited by
Year
A trusted node–free eight-user metropolitan quantum communication network
SK Joshi, D Aktas, S Wengerowsky, M Lončarić, SP Neumann, B Liu, ...
Science advances 6 (36), eaba0959, 2020
2042020
Tight finite-key security for twin-field quantum key distribution
G Currįs-Lorenzo, Į Navarrete, K Azuma, G Kato, M Curty, M Razavi
NPJ Quantum Information 7 (1), 2021
48*2021
Wavelength assignment in quantum access networks with hybrid wireless-fiber links
S Bahrani, O Elmabrok, G Currįs Lorenzo, M Razavi
JOSA B 36 (3), B99-B108, 2019
162019
Twin-field quantum key distribution with fully discrete phase randomization
G Currįs-Lorenzo, L Wooltorton, M Razavi
Physical Review Applied 15 (1), 014016, 2021
152021
Modified BB84 quantum key distribution protocol robust to source imperfections
M Pereira, G Currįs-Lorenzo, Į Navarrete, A Mizutani, G Kato, M Curty, ...
Physical Review Research 5 (2), 023065, 2023
122023
Finite-key analysis of loss-tolerant quantum key distribution based on random sampling theory
G Currįs-Lorenzo, Į Navarrete, M Pereira, K Tamaki
Physical Review A 104 (1), 012406, 2021
82021
Tight finite-key security for twin-field quantum key distribution. npj Quantum Inf. 7
G Currįs-Lorenzo, Į Navarrete, K Azuma, G Kato, M Curty, M Razavi
72021
Resource optimization in quantum access networks
S Bahrani, O Elmabrok, G Currįs Lorenzo, M Razavi
ICASSP 2019-2019 IEEE International Conference on Acoustics, Speech and …, 2019
62019
Security of quantum key distribution with imperfect phase randomisation
G Currįs-Lorenzo, S Nahar, N Lütkenhaus, K Tamaki, M Curty
Quantum Science and Technology 9 (1), 015025, 2023
42023
A trusted node–free eight-user metropolitan quantum communication network. Sci. Adv. 6 (36), eaba0959 (2020)
SK Joshi, D Aktas, S Wengerowsky, M Lončarić, SP Neumann, B Liu, ...
4
A security framework for quantum key distribution implementations
G Currįs-Lorenzo, M Pereira, G Kato, M Curty, K Tamaki
arXiv preprint arXiv:2305.05930, 2023
32023
Security of decoy-state quantum key distribution with imperfect phase randomization
G Currįs-Lorenzo, K Tamaki, M Curty
IEICE Technical Report; IEICE Tech. Rep., 2022
32022
Finite-key analysis for memory-assisted decoy-state quantum key distribution
G Currįs Lorenzo, M Razavi
New Journal of Physics 22 (10), 103005, 2020
32020
Quantum and classical communications on shared infrastructure
S Bahrani, O Elmabrok, G Currįs Lorenzo, M Ghalaii, M Razavi
2019 21st International Conference on Transparent Optical Networks (ICTON), 1-2, 2019
32019
Finite-key effects in quantum access networks with wireless links
S Bahrani, O Elmabrok, G Currįs Lorenzo, M Razavi
2018 IEEE Globecom Workshops (GC Wkshps), 1-5, 2018
32018
Secret key rate bounds for quantum key distribution with faulty active phase randomization
X Sixto, G Currįs-Lorenzo, K Tamaki, M Curty
EPJ Quantum Technology 10 (1), 1-26, 2023
22023
Secret key rate bounds for quantum key distribution with non-uniform phase randomization
X Sixto, G Currįs-Lorenzo, K Tamaki, M Curty
arXiv preprint arXiv:2304.03562, 2023
22023
Quantum key distribution with unbounded pulse correlations
M Pereira, G Currįs-Lorenzo, A Mizutani, D Rusca, M Curty, K Tamaki
arXiv preprint arXiv:2402.08028, 2024
2024
Security of advanced quantum key distribution protocols in realistic conditions
GJ Currįs Lorenzo
University of Leeds, 2021
2021
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Articles 1–19