Ph.D. - Physics
The University of Texas at Austin - 2005
B.S. - Physics
University of Science and Technology of China - 2000
- Ultra-cold Atomic Gases
- Topological Superfluid and Superconductor
- Physical Implementation of Quantum Information and Quantum Computation
- 2D materials
Quantum Chaos of Bogoliubov Waves for a Bose-Einstein Condensate in Stadium Billiards Chuanwei Zhang, Jie Liu, Mark G. Raizen, and Qian Niu, Phys. Rev. Lett. 93, 074101 (2004). 2004 - Publication
Quantum Clone and States Estimation for n-state System, Chuanwei Zhang, Chuan-Feng Li, and Guang-Can Guo, Phys. Lett. A, 271, 31 (2000). 2000 - Publication
Realizing probabilistic identification and cloning of quantum states via universal quantum logic gates, Chuanwei Zhang, Zi-Yang Wang, Chuan-Feng Li, and Guang-Can Guo, Phys Rev. A 61, 062310 (2000). 2000 - Publication
Probabilistic quantum cloning via Greenberger-Horne-Zeilinger states, Chuanwei Zhang, Chuan-Feng Li, Zi-Yang Wang, and Guang-Can Guo, Phys. Rev. A 62, 042302 (2000). 2000 - Publication
General strategies for discrimination of quantum states, Chuanwei Zhang, Chuan-Feng Li, and Guang-Can Guo, Phys. Lett. A, 261, 25 (1999) 1999 - Publication
The University of Texas at Dallas [2016–Present]
The University of Texas at Dallas [2012–2016]
Washington State University [2008–2012]
Postdoctoral Research Associate
The University of Maryland [2006–2008]
Fellow - American Physical Society 
Robert S. Hyer Awards - American Physical Society Texas Section 
Young Faculty Award - Defense Advanced Research Projects Agency 
Dr. Chuanwei Zhang
, professor of physics in the School of Natural Sciences and Mathematics
, was named fellow of the American Physical Society
(APS) in October.
ws are elected based on their exceptional contributions to physics. Zhang was cited for “seminal contributions to theoretical research in ultracold atomic physics, including studies of spin-orbit coupled quantum gases, topological superfluids with Majorana or Weyl fermions, and Fulde-Ferrell superfluid states.”
Theories developed by a UT Dallas physicist have been put to the test in the laboratory, and the results offer a new way to study — and possibly exploit — the strange realm of quantum physics.
In a study published in June in the journal Nature Communications
, Dr. Chuanwei Zhang, associate professor of physics at UT Dallas, and researchers at Washington State University collaborated on a project aimed at gaining a better understanding of the physics that governs the invisible micro-world of atoms and particles.
For most people, the technical aspects of quantum physics – the behavior of matter and energy on scales as small as an atom or an electron – are enough to make their eyes glaze over.
But the emerging scientific field of quantum topological materials might be as easy to visualize as a glazed doughnut.
“In this field of research, we are trying to find new materials that are, from a physics standpoint, protected by their topology,” explained Dr. Chuanwei Zhang, associate professor of physics
at The University of Texas at Dallas. He is one of the organizers of a scientific conference on the topology of quantum matter to be held on campus this month.