Category
Position
Email
daihan@ustc.edu.cn
Telephone
Address
Shanghai Branch Hefei National Laboratory for Physical Sciences at Microscale ;University of Science and Technology of China Xiupu Road 99 201315 Shanghai, P. R. China
Homepage
Introduction
EDUCATION AND RESEARCH EXPERIENCE :
Since 2018.2 University of Science and Technology of China, Professor
2013.7-2018.2 Physikalisches Institut, University Heidelberg, Postdoc Fellow
2011.6-2013.6 University Heidelberg, CAS-DAAD Joint Fellowship
2007.9-2013.6 University of Science and Technology of China, Ph. D.
2003.9-2007.7 University of Science and Technology of China, B. S.
RESEARCH INTERESTS :
1. Quantum simulation with ultracold quantum gases / Quantum gas microscope
2. Time and frequency measurement / Optical lattices clock
Related Publications
- A strontium lattice clock with both stability and uncertainty below 5 × 10 − 18. Metrologia (2024).
- An ultrastable 1397-nm laser stabilized by a crystalline-coated room-temperature cavity. Review of Scientific Instruments 95, (2024).
- PHYSICAL REVIEW A 109 , 023304 ( 2024 ) Transition from flat-band localization to Anderson localization : Realization and characterization in a one-dimensional momentum lattice. Physical Review A 023304, 1-7 (2024).
- Transition from Flat-Band Localization to Anderson Localization in a One-Dimensional Tasaki Lattice. Physical Review Letters 132, 63401 (2024).
- Ultrahigh-reflective optical thin films prepared by reactive magnetron sputtering with RF-induced substrate bias. Review of Scientific Instruments (2024). doi:10.1063/5.0169714
- Scalable Multipartite Entanglement Created by Spin Exchange in an Optical Lattice. Physical Review Letters 131, 73401 (2023).
- Bayesian learning for optimal control of quantum many-body states in optical lattices. Physical Review A 106, 13316 (2022).
- Cooling and entangling ultracold atoms in optical lattices. Science 369, 550-553 (2020).
- A battery-powered floating current source of 100 A for precise and fast control of magnetic field. AIP Advances 10, 125207 (2020).
- High-contrast transparency comb of the electromagnetically-induced-transparency memory. Physical Review A 98, 033802 (2018).