Beijing Normal University - China
Author Profile
Orcid
Scopus
🎓 Early Academic Pursuits
Prof. Ping Zhou began his academic career with a Bachelor of Science degree from the Department of Physics at Beijing Normal University, where he studied from September 1994 to July 1998. His early interest in physics laid the groundwork for his future pursuits in quantum mechanics and its applications. He further deepened his knowledge during his graduate studies, where he pursued a Ph.D. in Materials Science & Engineering at the same institution from 2003 to 2008, co-supervised by Profs. Hongyu Zhou and Fuguo Deng.
💼 Professional Endeavors
Prof. Zhou's professional trajectory includes key roles in academia, starting as a Lecturer in the College of Physics and Electronic Engineering at Guangxi University for Nationalities in 2008. His career progressed rapidly, becoming an Associate Professor by 2009 and a full Professor by 2013. In 2020, he was appointed Professor in the College of Mathematics and Physics at Guangxi Minzu University, where he continues to advance research in quantum communication and quantum computation. His stint as a Visiting Scholar at the University of Basque Country in 2017 further broadened his international experience and collaboration in theoretical physics.
🔬 Contributions and Research Focus
Prof. Zhou's research focuses primarily on quantum communication and quantum computation, areas where he has made significant contributions. His work on quantum teleportation, quantum controlled teleportation, and quantum remote state preparation has advanced the understanding of quantum information processing and its practical applications. He is also deeply engaged in exploring fundamental issues in quantum mechanics, including quantum entanglement and nonlocality, which are crucial to fields like quantum cryptography and computer information science. His research has been continuously supported by prominent foundations, including the National Nature Science Foundation of China.
🌍 Impact and Influence
Prof. Zhou has had a profound influence on the fields of quantum communication and quantum computation, with his research shaping modern developments in quantum information science. His work on quantum operations and state preparation has inspired further research and has practical implications in securing quantum networks and improving computational methods. His ability to bridge the gap between theoretical physics and practical applications has earned him numerous awards, including the prestigious Guangxi science and technology progress award in 2023.
🏆Academic Cites
Throughout his career, Prof. Zhou’s publications have garnered numerous citations in key academic journals, reflecting the far-reaching impact of his research. His contributions to quantum communication and quantum computation have provided foundational knowledge that has been widely cited by other researchers, solidifying his reputation as a leading figure in the field. His work continues to serve as a crucial reference point for ongoing research in quantum information processing.
🌟 Legacy and Future Contributions
As Prof. Zhou looks ahead, his legacy in quantum research is set to expand further with a new project, from 2024 to 2027, focusing on parallel quantum remote information processing using photon systems. This work, supported by the National Nature Science Foundation of China, promises to break new ground in quantum networks and information processing. His continued efforts in mentoring young researchers and contributing to the scientific community ensure that his impact will endure, influencing future generations of quantum scientists.
📝Quantum Communication and Quantum Computation
Prof. Zhou’s pioneering work in quantum communication and quantum computation has significantly advanced the field. His research on quantum teleportation and quantum state preparation provides critical insights into secure quantum communication networks. The continued expansion of quantum computation through his studies offers promising applications in various industries, from cryptography to advanced computing systems.
Notable Publication
📝Hierarchical Controlled Joint Remote Implementation of the Partially Unknown Operations of m Qudits via m High-Dimensional Entangled States
Journal: Entropy
Publication Date: October 2024
Contributors: Ruiheng Jing, Qi Lan, Ping Zhou
📝Hierarchical Controlled Remote Preparation of an Arbitrary m-Qudit State with Four-Qudit Cluster States
Journal: Quantum Information Processing
Publication Date: 2023
Contributors: Ping Zhou
📝Protecting High-Dimensional Entanglement from Decoherence via Quantum Weak Measurement and Reversal
Journal: Modern Physics Letters A
Publication Date: 2023
Contributors: Ping Zhou
📝Deterministic Remote Preparation of an Arbitrary Single-Qudit State with High-Dimensional Spatial-Mode Entanglement via Linear-Optical Elements
Journal: International Journal of Theoretical Physics
Publication Date: 2022
Contributors: Ping Zhou
📝Controlled Cyclic Remote Preparation of an Arbitrary Single-Qudit State by Using a Seven-Qudit Cluster State as the Quantum Channel
Journal: International Journal of Theoretical Physics
Publication Date: 2021
Contributors: Ping Zhou
📝Effect of Noise on Remote Preparation of an Arbitrary Single-Qubit State
Journal: Quantum Engineering
Publication Date: 2021
Contributors: Ping Zhou
📝Effect of Noise on Deterministic Remote Preparation of an Arbitrary Two-Qudit State by Using a Four-Qudit χ-Type State as the Quantum Channel
Journal: International Journal of Quantum Information
Publication Date: 2020
Contributors: Ping Zhou
📝Joint Remote State Preparation of Single-Photon Three-Qubit State with Hyperentangled State via Linear-Optical Elements
Journal: Quantum Information Processing
Publication Date: 2020
Contributors: Ping Zhou