[Google Scholar] [ORCID: 0000-0002-7137-5390] (* for equal contribution and # for corresponding authors)

Preprints:

22. Solving excited states for long-range interacting trapped ions with neural networks
Y Ma*, C Liu*, WKL#, SY Zhang, LM Duan, Y Wu#, DL Deng#
arXiv:2506.08594 (2025)
[arXiv]
21. Demonstration of low-overhead quantum error correction codes
K Wang*, Z Lu*, C Zhang*, G Liu, J Chen, Y Wang, Y Wu, S Xu, X Zhu, F Jin, Y Gao, Z Tan, Z Cui, N Wang, Y Zou, A Zhang, T Li, F Shen, J Zhong, Z Bao, Z Zhu, Y Han, Y He, J Shen, H Wang, JN Yang, Z Song, J Deng, H Dong, ZZ Sun, WKL, Q Ye, S Jiang, Y Ma, PX Shen, P Zhang, H Li, Q Guo, Z Wang#, C Song#, H Wang, DL Deng#
arXiv:2505.09684 (2025)
[arXiv]
20. Quantum automated learning with provable and explainable trainability
Q Ye*, S Geng*, Z Han, WKL, LM Duan, DL Deng#
arXiv:2502.05264 (2025)
[arXiv]
19. Experimental quantum continual learning with superconducting qubits
C Zhang*, Z Lu*, L Zhao*, S Xu, WKL, K Wang, J Chen, Y Wu, F Jin, X Zhu, Y Gao, Z Tan, Z Cui, A Zhang, N Wang, Y Zou, T Li, F Shen, J Zhong, Z Bao, Z Zhu, Z Song, J Deng, H Dong, P Zhang, W Jiang, ZZ Sun, PX Shen, H Li, Q Guo, Z Wang, J Hao#, H Wang, DL Deng#, C Song#
arXiv:2409.09729 (2024)
[arXiv]
18. Improved Nonlocality Certification via Bouncing between Bell Operators and Inequalities
WKL*, M Hu*, K Wang, S Xu, Z Lu, J Chen, Y Wu, C Zhang, F Jin, X Zhu, Y Gao, Z Cui, A Zhang, N Wang, Y Zou, F Shen, J Zhong, Z Bao, Z Zhu, P Zhang, H Li, Q Guo, Z Wang, DL Deng, C Song#, H Wang, P Emonts#, J Tura
arXiv:2407.12347 (2024)
[arXiv]

Journals:

17. Topological prethermal strong zero modes on superconducting processors
F Jin*, S Jiang*, X Zhu*, Z Bao, F Shen, K Wang, Z Zhu, S Xu, Z Song, J Chen, Z Tan, Y Wu, C Zhang, Y Gao, N Wang, Y Zou, A Zhang, T Li, J Zhong, Z Cui, Y Han, Y He, H Wang, J Yang, Y Wang, J Shen, G Liu, J Deng, H Dong, P Zhang, WKL, D Yuan, Z Lu, ZZ Sun, H Li, J Zhang, C Song, Z Wang, Q Guo#, F Machado, J Kemp, T Iadecola, N Y. Yao, H Wang#, DL Deng#
Nature (2025)
[Paper] [arXiv]
16. Probing Many-Body Bell Correlation Depth with Superconducting Qubits
K Wang*, WKL*, S Xu*, M Hu, J Chen, Y Wu, C Zhang, F Jin, X Zhu, Y Gao, Z Tan, A Zhang, N Wang, Y Zou, T Li, F Shen, J Zhong, Z Bao, Z Zhu, Z Song, J Deng, H Dong, X Zhang, P Zhang, W Jiang, Z Lu, ZZ Sun, H Li, Q Guo, Z Wang, P Emonts, J Tura, C Song#, H Wang#, DL Deng#
Physical Review X 15, 021024 (2025)
[Paper] [arXiv]
15. Quantum delegated and federated learning via quantum homomorphic encryption
WKL, DL Deng#
Research Directions: Quantum Technologies 3, e3 (2025)
[Paper] [arXiv]
14. Extracting reliable quantum outputs for noisy devices
WKL, DL Deng#
Nature Computational Science 4, 811 (2024)
[paper]
13. Long-lived topological time-crystalline order on a quantum processor
L Xiang*, W Jiang*, Z Bao*, Z Song, S Xu, K Wang, J Chen, F Jin, X Zhu, Z Zhu, F Shen, N Wang, C Zhang, Y Wu, Y Zou, J Zhong, Z Cui, A Zhang, Z Tan, T Li, Y Gao, J Deng, X Zhang, H Dong, P Zhang, S Jiang, WKL, Z Lu, ZZ Sun, H Li, Z Wang, C Song, Q Guo#, F Liu, ZX Gong, A V. Gorshkov, N Y. Yao, T Iadecola, F Machado, H Wang#, DL Deng#
Nature Communications 15, 8963 (2024)
[Paper] [arXiv]
12. Expressibility-induced Concentration of Quantum Neural Tangent Kernels
LW Yu#, WKL, Q Ye, Z Lu, Z Han, and DL Deng#
Reports on Progress in Physics 87, 110501 (2024)
[Paper] [arXiv]
11. Quantum-Classical Separations in Shallow-Circuit-Based Learning with and without Noises
Z Zhang*, W Gong*, WKL, DL Deng#
Communications Physics 7, 290 (2024)
[Paper] [arXiv]
10. Non-Abelian braiding of Fibonacci anyons with a superconducting processor
S Xu*, ZZ Sun*, K Wang*, H Li, Z Zhu, H Dong, J Deng, X Zhang, J Chen, Y Wu, C Zhang, F Jin, X Zhu, Y Gao, A Zhang, N Wang, Y Zou, Z Tan, F Shen, J Zhong, Z Bao, WKL, W Jiang, LW Yu, Z Song, P Zhang, L Xiang, Q Guo, Z Wang, C Song#, H Wang#, and DL Deng#
Nature Physics 20, 1469 (2024) (Cover Story)
[Paper] [arXiv] [News]
9. Enhancing Quantum Adversarial Robustness by Randomized Encodings
W Gong, D Yuan#, WKL, and DL Deng#
Physical Review Research 6, 023020 (2024)
[Paper] [arXiv]
8. Deep quantum neural networks on a superconducting processor
X Pan*, Z Lu*, W Wang, Z Hua, Y Xu, WKL, W Cai, X Li, H Wang, YP Song, C-L Zou, DL Deng#, and L Sun#
Nature Communications 14, 4006 (2023)
[Paper] [arXiv] [Code&Data] [News]
7. Digital Simulation of Projective Non-Abelian Anyons with 68 Superconducting Qubits
S Xu*, ZZ Sun*, K Wang*, L Xiang, Z Bao, Z Zhu, F Shen, Z Song, P Zhang, W Ren, X Zhang, H Dong, J Deng, J Chen, Y Wu, Z Tan, Y Gao, F Jin, X Zhu, C Zhang, N Wang, Y Zou, J Zhong, A Zhang, WKL, W Jiang, L Yu, Y Yao, H Li, Z Wang, Q Guo, C Song#, H Wang#, and DL Deng#
Chinese Physics Letters 40, 060301 (2023) (Express Letter & Cover Story)
[Paper] [arXiv] [Data] [News(Physics World)]
6. Quantum Capsule Networks
Z Liu*, PX Shen*, WKL, LM Duan#, DL Deng#
Quantum Science and Technology 8, 015016 (2022)
[Paper] [arXiv]
5. Experimental quantum adversarial learning with programmable superconducting qubits
W Ren*, WKL*, S Xu*, K Wang, W Jiang, F Jin, X Zhu, J Chen, Z Song, P Zhang, H Dong, X Zhang, J Deng, Y Gao, C Zhang, Y Wu, B Zhang, Q Guo, H Li, Z Wang, J Biamonte, C Song#, DL Deng#, and H Wang#
Nature Computational Science 2, 711 (2022) (Cover Story)
[Paper] [arXiv] [Code&Data] [Views] [News]
4. Quantum Neural Network Classifiers: A Tutorial
WKL#, Z Lu, and DL Deng#
SciPost Physics Lecture Notes 61 (2022)
[Paper] [Code&Data]
3. Recent advances for quantum classifiers
WKL, and DL Deng#
SCPMA 65, 220301 (2022)
[Paper] [arXiv]
2. Quantum federated learning through blind quantum computing
WKL*, S Lu*, and DL Deng#
SCPMA 64, 100312 (2021)
[Paper] [arXiv]
1. Adversarial learning in quantum artificial intelligence
PX Shen, W Jiang, WKL, Z Lu, and DL Deng#
Acta Physica Sinica 70, 140302 (2021)
[Paper]