Hui Zhai


Education background

Jan. 2005: Doctor of Science, Physics, Center for Advanced Study, Tsinghua University, Beijing, China

Thesis title: Quantum Many-body Theory of Ultracold Atomic Gases

Advisor: Professor Chen-Ning Yang

Jun. 2002: Bachelor of Science, Physics, Department of Physics, Tsinghua University, Beijing, China


December 2015-Present: Professor, Institute for Advanced Study, Tsinghua University
August 2012-December 2015: Permenent Member, Institute for Advanced Study, Tsinghua University
July. 2009-July 2012: Member, Institute for Advanced Study, Tsinghua University
Sep. 2007-June 2009: Postdoc Scholar,Material Science Division, Lawrence Berkeley National Laboratory and Department of Physics, University of California at Berkeley
Jun. 2005-May 2007: Postdoc Scholar, Department of Physics, the Ohio-State University

Concurrent Academic

Editorial Board Member, of Reports on Progress in Physics, 2020.5-
Editorial Board Member, of Machine Learning:Science and Technology, 2019.6-
Editorial Board Member, of Journal of Physics B, 2013.10-2017.12

Areas of Research Interests/ Research Projects

1.Theory of cold atomic gases and quantum matters
Our research on cold atom physics nearly covers all aspects of cold atom physics, mainly including:
1)Strongly interacting cold atomic gases: Few- and many-body problems nearby a Feshbach resonance, non-equilibrium problems.
2)Topological quantum matters: Spin-orbit coupling and synthetic gauge field in cold atom system, dynamicaland interaction effect in topological matters.
3)Quantum simulation with cold atoms in optical lattices: Bose and Fermi Hubbard model, quantum phase transition.
2.The application of machine learning method in physics
3.Holographic Principle and Quantum Matters

Academic Achievement

Total publication: more than 100, including one in Science, four in Nat. Phys., one in Phy.Rev.X, 31 on Phys. Rev. Lett., one review article on Nat. Rev. Phys, and one review article on Rep. Prog. Phys. SCI total citation over 5000, and Google Scholar total citation over 7400.

My full publications: ResearchID 

                                Google Scholar

More Gruop information:

Representative Papers:

1. Scheme to Measure the Topological Number of a Chern Insulator from Quench Dynamics
Ce Wang, Pengfei Zhang, Xin Chen, Jinlong Yu and Hui Zhai
Physical Review Letters, 118, 185701 (2017)

Propose that the topological invariant of a Hamiltonian can be measured through linking number in a quench dynamics, which has been confirmed by the Hamburg group.

2. Observation of the Efimovian Expansion in Scale-Invariant Fermi Gases
Shujin Deng, Zhe-Yu Shi, Pengpeng Diao, Qianli Yu, Hui Zhai, Ran Qi and Haibin Wu
Science, 335, 371 (2016)

Theoretically discover a new type of quantum many-body dynamics that obeys a discrete scaling symmetry in time, termed as “the Efimovian Expansion”. This predication is confirmed by an experiment of ECNU.

3. Orbital Feshbach Resonance in Alkali-Earth Atoms
Ren Zhang, Yanting Cheng, Hui Zhai and Peng Zhang
Physical Review Letters, 115, 135301 (2015)

Predict that alkaline-earth atom can possess a new type of magnetic-field tunable Feshbach resonance, through a new mechanismutilizing orbital degree of freedom, and name it as the “Orbital Feshbach Resonance”. This predication has been soon confirmed by two experiments from Munich and Florence groups.

4. Spin-Orbit Coupled Degenerate Fermi Gases,
Pengjun Wang, Zeng-Qiang Yu, Zhengkun Fu, Jiao Miao, Lianghui Huang, Shijie Chai, Hui Zhai and Jing Zhang,
Phys. Rev. Lett. 109, 095301 (2012)

In collaboration with the experimental group of Shanxi University, first experimentally realize and study spin-orbit coupled degenerate Fermi gas with cold atoms. SCI Citation >600. We propose to detect the effect of spin-orbit coupling in degenerate Fermi gas by measuring the asymmetry of momentum distribution, which also also been used in later experiments by Stanford, Florence and HKUST groups.

5. Spin-Orbit Coupled Spinor Bose-Einstein Condensates
Chunji Wang, Chao Gao, Chao-Ming Jian and Hui Zhai
Physical Review Letters, 105, 160403 (2010)

First predict that the ground state of a spin-orbit Bose condensate exhibits stripe order, which has been confirmed by several experiments from the MIT and other groups. SCI Citation >400.

6. Functional Renormalization-Group Study of the Pairing Symmetry and Pairing Mechanism of the FeAs-Based High Temperature Superconductor
Fa Wang, Hui Zhai, Ying Ran, Ashvin Vishwanath and Dung-Hai Lee
Physical Review Letters, 102, 047005 (2009)

Predict the pairing symmetry of ion pnictide superconductor, which has been confirmed by quite a few experiments. SCI Citation >390.