Faculty Lead
Fudong Wang
Associate Researcher
Email: fdwang.phys@foxmail.com
Office: Room 327, Shenzhen International Quantum Academy
Research Direction: Quantum optics and quantum memory implemented in rare-earth-based solid-state materials.
Profile
Fudong Wang focuses on quantum optics, particularly quantum memory implemented in rare-earth-based solid-state materials.
His recent work emphasizes ultralong coherence, ultra-high-efficiency quantum memories, optical and microwave cavity coupling with rare-earth ions, and the search for new materials for solid-state quantum storage.
Research Focus
Education
- 2011.08-2016.06, Ph.D., Chinese University of Hong Kong
- 2007.09-2011.06, B.S., University of Science and Technology of China
Professional Experience
- 2025.02-present, Associate Researcher, Hefei National Laboratory, Shenzhen International Quantum Academy
- 2018.11-2025.01, Assistant Researcher, Southern University of Science and Technology
- 2016.10-2018.09, Postdoctoral Researcher, University of Toronto
Papers
Nuclear Spins in a Solid Exceeding 10-Hour Coherence Times for Ultra-Long-Term Quantum Storage
F. Wang, M. Ren, W. Sun, M. Guo, M. J. Sellars, R. L. Ahlefeldt, J. G. Bartholomew, J. Yao, S. Liu, and M. Zhong, PRX Quantum 6, 010302 (2025).
Decoherence characterization and quantum memory design in 167Er3+:Y2SiO5
M. Guo, Q. Li, Z. Xu, S. Liu, F. Wang, and M. Zhong, Frontiers of Physics 21, 033201 (2026).
Realization of strong coupling between Er3+:CaWO4 crystal and the loop-gap resonator for a hybrid quantum system
Q. Li, M. Ren, S. Liu, F. Wang, and M. Zhong, Applied Physics Letters 127, 114001 (2025).
Long-lived optical coherence and spin lifetimes in Eu3+:Y2O3 oxide ceramics for quantum memories
S. Liu, M. Ren, W. Xiao, J. Wang, Y. Liu, D. Serrano, P. Goldner, D. Tang, X. An, F. Wang, and M. Zhong, Communications Physics 8, 338 (2025).
Optical coherence and hyperfine structure of the 7F0<->5D0 transition in Eu3+:CaWO4
X. An, W. Sun, Z. Xu, W. Xiao, M. Ren, M. Guo, S. Liu, F. Wang, and M. Zhong, Journal of Luminescence 281, 121209 (2025).
Rare-earth quantum memories: The experimental status quo
M. Guo, S. Liu, W. Sun, M. Ren, F. Wang, and M. Zhong, Frontiers of Physics 18, 21303 (2023).
Conductivity Spectrum of Ultracold Atoms in an Optical Lattice
R. Anderson, F. Wang, P. Xu, V. Venu, S. Trotzky, F. Chevy, and J. H. Thywissen, Physical Review Letters 122, 153602 (2019).
Observation of resonant scattering between ultracold heteronuclear Feshbach molecules
F. Wang, X. Ye, M. Guo, D. Blume, and D. Wang, Physical Review A 100, 042706 (2019).
Creation of an Ultracold Gas of Ground-State Dipolar 23Na87Rb Molecules
M. Guo, B. Zhu, B. Lu, X. Ye, F. Wang, R. Vexiau, N. Bouloufa-Maafa, G. Quemener, O. Dulieu, and D. Wang, Physical Review Letters 116, 205303 (2016).
Formation of ultracold NaRb Feshbach molecules
F. Wang, X. He, X. Li, B. Zhu, J. Chen, and D. Wang, New Journal of Physics 17, 035003 (2015).
Official Source
This SSQS profile is organized from public faculty information and the paper list shown on the official faculty page, with a direct reference kept here for verification.