Seok-Hyung Lee

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	Toutes	Depuis 2020
Citations	100	100
indice h	7	7
indice i10	3	3

202120222023202420253 3 27 61 5

Coauteurs

Hyunseok JeongProfessor of Physics, Seoul National UniversityAdresse e-mail validée de snu.ac.kr
Yong Siah TeoSeoul National University, Seoul, South KoreaAdresse e-mail validée de snu.ac.kr
Omkar SrikrishnaORCA ComputingAdresse e-mail validée de orcacomputing.com
Stephen D BartlettThe University of SydneyAdresse e-mail validée de sydney.edu.au
Seongjeon ChoiPhD candidate, Department of Physics, Seoul National UniversityAdresse e-mail validée de snu.ac.kr
Seongwook ShinDahlem Center for Complex Quantum SystemsAdresse e-mail validée de fu-berlin.de
Jaehak LeeKorea Institute of Science and Technology (KIST)Adresse e-mail validée de kist.re.kr
Nuri Kangquantum information theory group, Korea institute of science and technology (KIST)Adresse e-mail validée de kist.re.kr
Felix ThomsenUniversity of SydneyAdresse e-mail validée de uni.sydney.edu.au
Benjamin BrownIBM QuantumAdresse e-mail validée de ibm.com
Nicholas FazioPhD student of Physics, The University of SydneyAdresse e-mail validée de sydney.edu.au

Suivre

Seok-Hyung Lee

Quantum Theory Group, University of Sydney, Sydney, NSW, Australia

Adresse e-mail validée de sydney.edu.au - Page d'accueil

quantum error correction photonic quantum computing


Titre Trier par citations Trier par année Trier par titre	Citée par Citée par	Année
All-photonic architecture for scalable quantum computing with greenberger-horne-zeilinger states S Omkar, SH Lee, YS Teo, SW Lee, H Jeong PRX Quantum 3 (3), 030309, 2022	29	2022
Graph-theoretical optimization of fusion-based graph state generation SH Lee, H Jeong Quantum 7, 1212, 2023	16	2023
Universal hardware-efficient topological measurement-based quantum computation via color-code-based cluster states SH Lee, H Jeong Physical Review Research 4 (1), 013010, 2022	10	2022
Color code decoder with improved scaling for correcting circuit-level noise SH Lee, A Li, SD Bartlett Quantum 9, 1609, 2025	9	2025
Parity-encoding-based quantum computing with Bayesian error tracking SH Lee, S Omkar, YS Teo, H Jeong npj Quantum Information 9 (1), 39, 2023	9*	2023
Virtual distillation with noise dilution YS Teo, S Shin, H Kwon, SH Lee, H Jeong Physical Review A 107 (2), 022608, 2023	7	2023
Teleportation of a multiphoton qubit using hybrid entanglement with a loss-tolerant carrier qubit S Choi, SH Lee, H Jeong Physical Review A 102 (1), 012424, 2020	7	2020
Low-overhead magic state distillation with color codes SH Lee, F Thomsen, N Fazio, BJ Brown, SD Bartlett arXiv preprint arXiv:2409.07707, 2024	6	2024
Fault-tolerant quantum computation by hybrid qubits with bosonic cat code and single photons J Lee, N Kang, SH Lee, H Jeong, L Jiang, SW Lee PRX Quantum 5 (3), 030322, 2024	6	2024
Loss-tolerant concatenated Bell-state measurement with encoded coherent-state qubits for long-range quantum communication SH Lee, SW Lee, H Jeong Physical Review Research 3 (4), 043205, 2021	1	2021
Method and apparatus for linear optical quantum computing H Jeong, SH Lee, YS Teo, S Omkar US Patent App. 18/075,327, 2024		2024
Highly fault-tolerant quantum computing using both discrete and continuous variables of light H Jeong, SH Lee, S Omkar, YS Teo Quantum 2.0, QTu4A. 6, 2023		2023
Universal Resource-efficient Topological Measurement-based Quantum Computing 이석형 서울대학교 대학원, 2023		2023

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