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Can Wang

ORCID: 0009-0005-0979-5342
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About
Contact & Profiles
A5100428600
Research Areas
  • Quantum Computing Algorithms and Architecture
  • Quantum Information and Cryptography
  • Neural Networks and Reservoir Computing
  • Quantum and electron transport phenomena
  • Parallel Computing and Optimization Techniques
  • Effects and risks of endocrine disrupting chemicals
  • Pharmaceutical and Antibiotic Environmental Impacts
  • Quantum Mechanics and Applications
  • Advanced biosensing and bioanalysis techniques
  • Cryptography and Data Security

CAS Key Laboratory of Urban Pollutant Conversion
 2019-2023

Hefei National Center for Physical Sciences at Nanoscale
 2023

University of Science and Technology of China
 2019-2023

Xiangtan University
 2011-2023

 Strongly correlated quantum walks with a 12-qubit superconducting processor
OPENALEX - Publications 
Zhiguang Yan Yu-Ran Zhang Ming Gong Yulin Wu Yarui Zheng and 16 more Shaowei Li Can Wang Futian Liang Jin Lin Yu Xu Cheng Guo Lihua Sun Cheng-Zhi Peng Keyu Xia Huiqiu Deng Hao Rong J. Q. You Franco Nori Heng Fan Xiaobo Zhu Jian-Wei Pan

Quantum walks on a superconducting circuit generate large-scale quantum superposed states. This allows for classically unavailable applications, such as simulating many-body systems, and also yields algorithms exponentially faster than classical computation. Yan et al. demonstrate of one two strongly correlated microwave photons in one-dimensional array 12 qubits with short-range interactions. The scalability the platform could lead to implementations simulation complex systems. Science ,...

10.1126/science.aaw1611 article EN Science 2019-05-02
 Demonstration of Adiabatic Variational Quantum Computing with a Superconducting Quantum Coprocessor
OPENALEX - Publications 
Ming-Cheng Chen Ming Gong Xiaosi Xu Xiao Yuan Jianwen Wang and 13 more Can Wang Chong Ying Jin Lin Yu Xu Yulin Wu Shiyu Wang Huiqiu Deng Futian Liang Cheng-Zhi Peng Simon C. Benjamin Xiaobo Zhu Chao‐Yang Lu Jian-Wei Pan

Adiabatic quantum computing enables the preparation of many-body ground states. Realization poses major experimental challenges: Direct analog implementation requires complex Hamiltonian engineering, while digitized version needs deep gate circuits. To bypass these obstacles, we suggest an adiabatic variational hybrid algorithm, which employs short circuits and provides a systematic optimization circuit parameters. The theorem promises not only state but also that excited eigenstates can be...

10.1103/physrevlett.125.180501 article EN Physical Review Letters 2020-10-26
 Determination of bisphenol A in water via inhibition of silver nanoparticles-enhanced chemiluminescence
OPENALEX - Publications 
Xiaolan Chen Can Wang Xinmei Tan Jianxiu Wang

10.1016/j.aca.2011.01.031 article EN Analytica Chimica Acta 2011-01-26
 Efficient quantum homomorphic encryption scheme with flexible evaluators and its simulation
OPENALEX - Publications 
Jiang Liu Qin Li Junyu Quan Can Wang Jinjing Shi and 1 more Haozhen Situ

10.1007/s10623-021-00993-2 article EN Designs Codes and Cryptography 2022-01-08
 Quantum computer-aided design for advanced superconducting qubit: Plasmonium
OPENALEX - Publications 
Fengming Liu Can Wang Ming-Cheng Chen He Chen Shaowei Li and 8 more Zhong-Xia Shang Chong Ying Jianwen Wang Yong-Heng Huo Cheng-Zhi Peng Xiaobo Zhu Chao‐Yang Lu Jian-Wei Pan

10.1016/j.scib.2023.06.030 article EN Science Bulletin 2023-07-03
 Verifiable Multiparty Delegated Quantum Computation
OPENALEX - Publications 
Qin Li Can Wang Jiang Zhu Lingling Xu Zhiwei Sun

Multiparty delegated quantum computation (MDQC) allows multiple clients with limited capability to jointly complete a computational task the aid of an untrusted server. But in existing MDQC protocols, verifiability that should verify whether server executed protocol correctly and gave correct results was not handled. Therefore, this paper, we improve typical enable correctness by inserting trap qubits develop novel method enforce send honestly while avoiding positions being leaked The...

10.1155/2023/2662685 article EN cc-by International Journal of Intelligent Systems 2023-05-15
 Quantum computing with time-travelling quantum gates
OPENALEX - Publications 
Can Wang Chao‐Yang Lu Ming-Cheng Chen

Quantum computing can solve problems that are difficult to in classical computing, expanding the range of be effectively computed within allowable physical principles, and posing a challenge extended Church-Turing thesis computing. Here, we discuss an interesting question: how achieve more powerful computers by breaking through limitations further enhancing capabilities quantum computers. To extend novel operations related relativistic physics crucial candidate. Among them, concept closed...

10.7498/aps.73.20231289 article EN Acta Physica Sinica 2023-11-17
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