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Zhaoyuan MA
Professor
mazy@sustech.edu.cn
Prof. Zhaoyuan Ma received his B.Sc. degree from Peking University in 2001 and his D.Phil. degree from Oxford University in 2004. From 2006 to 2009, he did postdoctoral research at JQI of NIST and University of Maryland and UC Berkeley in the USA. In 2009, he was titled the Hundred-Talent Professor in Physics of the Chinese Academy of Sciences. He designed the world's first ultra-cold atom experiment platform for the space station forTiangong-4. He was in charge of the research on the interaction of Boson- Fermion mixture in microgravity. In 2017,  he became the professor of intelligent manufacturing at the University of Sheffield, UK. In 2018, he joined the Future Lab of Tsinghua University as the PI and the director of the Data Driving Manufacturing Research Center. In May 2020, he was promoted as the Assistant Dean of Tsinghua Shenzhen International Graduate School. In 2022, Prof. Ma joined the School of System Design and Intelligent Manufacturing at Southern University of Science and Technology as a tenured professor.


Research Interests
  • Intelligent manufacturing
  • Quantum control
  • Artificial Intelligent


Work Experience
2020-2021:Assistant Dean, Tsinghua Shenzhen International Graduate School
2018-2022:Professor, Chief PI, Future Lab. Tsinghua University, Beijing
2017-2020:Professor, AMRC,University of Sheffield
2016-2017:Visiting Professor, University of Sheffield
2009-2015:Hundred Talents Professor of Physics,Chinese Academy of Sciences
2010:Visiting Scholar, University of Chicago
2007-2009:Postdoc Researcher, UC Berkeley
2006-2007:Postdoc Researcher, JQI of NIST and University of Maryland
2005-2006:Postdoc Researcher, University of Oxford

Education
  • D. Phil AMO, Physics (2005, University of Oxford)
  • B.Sc. Nuclear Physics (2001, Peking University)


Books Published
Quantum Dialogue, 《量子大唠嗑》,中信出版社,CITIC Press Group, 2016
AI-Not, 《人工智能之不能》,中信出版社,CITIC Press Group, 2020
Made-in-China made China, 《智造中国》,湛庐,北京联合出版集团,Cheers Publishing,2022

Selected Publication
a)医工结合方向-心脏与人工智能Cardiology and AI

1. Dongxue Liang, Jing Qiu, Lu Wang, Xiaolei Yin, Junhui XIng,Zhiyun Yang, Jianzeng Dong, Zhaoyuan Ma. Coronary angiography video segmentation method for assisting cardiovascular disease interventional treatment[J]. BMC Med Imaging 20, 65 (2020). 

https://doi.org/10.1186/s12880-020-00460-9

2. Lu Wang, Dongxue Liang, Xiaolei Yin, Jing Qiu, Zhiyun Yang,Junhui Xing, Jianzeng Dong, Zhaoyuan Ma. Coronary artery segmentation in angiographic videos utilizing spatial-temporal information[J]. BMC Med Imaging 20, 110 (2020). 

https://doi.org/10.1186/s12880-020-00509-9

3. Xiao-lei Yin, Dong-xue Liang, Lu Wang, Jing Qiu, Zhi-yun Yang, Jian-zeng Dong and Zhao-yuan Ma. Analysis of Coronary Angiography Video Interpolation Methods to Reduce X-ray Exposure Frequency Based on Deep Learning. Cardiovascular Innovations and Applications, 2021.

https://doi.org/10.15212/CVIA.2021.0011

4. Dongxue Liang, Lu Wang, Xiaolei Yin, Jing Qiu, Zhiyun Yang, Junhui Xing,Jianzeng Dong, Zhaoyuan Ma. Semi 3D-TENet: Semi 3D Network based on Temporal Information Extraction for Coronary Artery Segmentation from Angiography Video. Biomedical Signal Processing and Control 69, 102894(2021).
https://doi.org/10.1016/j.bspc.2021.102894

b)量子工程Quantum Engineering
1. Yao, Hepeng & Luan, Tian & Li, Chen & Zhang, Yin& Ma, Zhaoyuan & Chen, Xuzong. Comparison of different techniques in optical trap for generating picokelvin 3D atom cloud inmicrogravity. Optics Communications. 359. 123-128. 10.1016/j.optcom.2015.09.065.(2016).
2. Tian Luan, Tianwei Zhou, Xuzong Chen, Zhaoyuan Ma, A modified Bitter-type electromagnet and control system for cold atom experiments. Rev. Sci. Ins. 85, 024701 (2014)
3. Lu Wang, Peng Zhang, Xu-Zong Chen, Zhao-Yuan Ma,Generating a picokelvin ultracold atomic ensemble in microgravity, Journal of Physics B Atomic Molecular and Optical Physics 09/2013; 46(19):195302.
 
c)量子光学Quantum Qptics
1. Zhang, Huirong & Chen, Xuzong & Ma, Zhaoyuan& Zhou, Yuqing. (2016). Kagome lattices for ultracold atoms induced by additional lightfields. Journal of Physics B: Atomic, Molecular and Optical Physics. 49. 115301. 10.1088/0953-4075/49/11/115301.
2. Luan, Tian & Yao, Hepeng & Wang, Lu & Li, Chen& Yang, Shifeng & Chen, Xuzong & Ma, Zhaoyuan. (2015).Two-stage crossed beam cooling with 6Li and 133Cs atoms in microgravity. Optics Express. 23. 10.1364/OE.23.011378.(2015)
3. Luan Tian,Jia Tao,Xuzong Chen,Zhaoyuan Ma,Optimized Degenerate Bose—Fermi Mixture in Microgravity: DSMC Simulation of Sympathetic Cooling,April 2014,Chinese Physics Letters 31(4):043401
4. Huirong Zhang, Qiuyi Guo, Zhaoyuan Ma, Xuzong Chen,Spin model in the effective staggered magnetic field in optical lattices, Physical Review A 04/2013; 87(4). DOI:10.1103/PhysRevA.87.043625
5. Huirong Zhang, Qiuyi Guo, Zhaoyuan Ma, Xuzong Chen,Staggered manipulation of ultracold atoms in optical lattices, Physical Review A 11/2012; 86(5). DOI:10.1103/PhysRevA.86.053622
6. Wei Xiong, Yin Zhang, Zhaoyuan Ma, Xuzong Chen,Estimating optical lattice alignment by RF spectroscopy, Chinese Optics Letters 08/2012; 10(9):090201-090201. DOI:10.3788/COL201210.090201
7. Peng Zhang, Z.-Y. Ma, Jian-Hua Wu, H. Fan, W. M. Liu,Diffraction of Bose-Einstein condensates in quantized light fields, Physical Review A 07/2011; 84(1). DOI:10.1103/PhysRevA.84.013614
8. T.P.Purdy, D.W.C. Brooks, T.Botter, N.Brahms, Z-Y.Ma,D.M.Stamper-Kurn, Tunable Cavity Optomechanics with Ultracold AtomsPhysical Review Letters 09/2010;105(13):133602.
9. Z.-Y.Ma, K. Burnett, M.B. d’Arcy, and S.A. Gardiner, Quantum random walk with accelerator modes, physics/0508182, Phys. Rev. A 73,013401 (2006)
10. Buchleitner, M.B. d’Arcy, S. Fishman, S.A. Gardiner, I.Guarneri, Z.-Y. Ma, L. Rebuzzini, and G.S. Summy, Quantum Accelerator Modes from the Farey Tree, physics/0501146, Phys. Rev. Lett. 96, 164101(2006)
11. Z.-Y. Ma, M. B. d'Arcy, and S. A. Gardiner, Gravity-sensitive quantum dynamics in cold atoms, Phys. Rev. Lett. 93, 164101(2004)
12. Z.-Y. Ma, C.J. Foot and S.L. Cornish, Optimized evaporative cooling using a dimple potential: an efficient route to Bose–Einstein condensation, J. Phys. B: At. Mol. Opt. Phys. 37, 3187-3195 (2004)
13. Z.-Y. Ma, A.M. Thomas, C.J. Foot, and S.L. Cornish, The evaporative cooling of a gas of caesium atoms in the hydrodynamic regime, J. Phys. B:At. Mol. Opt. Phys. 36, 3533-3540 (2003)
14. X.-J. Zhou, Z.-Y. Ma, X.-Z. Chen and Y.-Q. Wang, The weak-coupling of Bose-Einstein Condensates, Comm. Theo. Phys. 39,412-416 (2003)
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