Welcome to the research group of quantum correlated electron systems at Sun Yat-sen University in Guangzhou, China.
Our research focuses on quantum correlated electron systems, including high-temperature superconductivity, quantum magnetism, topological physics, two-dimensional electron systems, computational physics, photoelectric properties, etc.
2022.9.10
On September 10th, we held a special group meeting of 2022 Teachers' day and Mid-Autumn Festival. We talked freely and inspired together.
2019.12.27
Our research group went to Baishuizhai for group building activities. Located in Paitan Town, Zengcheng District, Guangzhou city, Baishuizhai Scenic and Historic Interest Area is a mountain type scenic and historic interest area.
2019.11.24
The 15th symposium has been held jointly by School of Physics, Sun Yat-sen University and Department of Physics, National University of Singapore during Nov.20-23, 2019 in Guangzhou, China.
2024.5.23
Orbital-dependent electron correlation in double-layer nickelate La3Ni2O7
2024.2.21
Dynamical localization transition in the non-Hermitian lattice gauge theory
2023.9.20
Bilayer Two-Orbital Model of La3Ni2O7 under Pressure
2024.5.17
Measuring the Boundary Gapless State and Criticality via Disorder Operator
2023.7.12
Signatures of superconductivity near 80 K in a nickelate under high pressure
2019.5.20
Single-orbital realization of high-temperature s± superconductivity in the square-octagon lattice
2018.9.12
Anomalous Quantum-Critical Scaling Corrections in Two-Dimensional Antiferromagnets
2020.11.02
Resonant inelastic x-ray scattering study of vector chiral ordered kagome antiferromagnet
2022.1.11
Fractional and composite excitations of antiferromagnetic quantum spin trimer chains
2022.4.26
A semiclassical approach to surface Fermi arcs in Weyl semimetals
2025.2.3
Einstein-de Haas effect: a bridge linking mechanics, magnetism, and topology
A reference management software
An online collaborative writing and publishing tool.
An integrated writing environment for creating LaTeX documents.
An open resource providing high-end simulation codes for strongly correlated quantum mechanical systems.
A popular science article on frustrated magnetism.
A Toolbox for Research on Interacting Quantum Systems
On September 10, we held a special group meeting of 2022 Teachers' day and Mid-Autumn Festival. We talked freely and inspired together.
At the end of the year, for the southern city of Guangzhou, the weather would be pleasant if there were no cold air heading south. The dry air faded away from the heat, leaving only a slight chill.
Taking this opportunity, in addition to the active atmosphere, and considering the status quo of sedentary postgraduate students and lack of exercise, Professor Yao organized our research group to climb mountains and have a view of scenery in Baishui Village, Zengcheng. Baishui Village is famous for its marvelous peaks and waterfalls, the most famous of which is The White Daffodil Waterfall, which looks like a fairy with flowing skirt and standing against the wind.
At 8 o 'clock in the morning, Mr. Yao, Mr. Wu and students of the research group gathered at the gate of Xianweijian Hall. Laughing and eating along the way, the car gradually left the city along the southeast, and one hour latter we arrived at the foot of the mountain. As soon as getting off bus, we saw street full of shops. Although overdevelopment is a common problem in domestic scenic spots, the stores here are clean, except for selling some local specialties. The shopkeeper's dog and the old selling man wearing bamboo hat are happy.
After buying tickets, we went straight into the mountain, climbing up the stairs named Tiannan First Stairs. The hiking trail is built along the waterfall bringing fresh air, which makes tourists stop to take photos and chat happily. Soon we got to the first observation deck, Qinpu Pavilion. We got quite a good view here. Due to lack of physical strength, finally we decided to stop at the Xiangu Pool halfway up the mountain. It was 2 pm when we arrived and most of us were exhausted. It was disappointing to find that the so-called Xiangu Pool was a reservoir.
Everyone sighed: "the world's great, strange view often lies in the danger and people rarely been there, so non-aspirant can not be to. So is the academic way of theoretical physics. The road ahead is far away. We should ride the whip, force forward. Then we can dispel the clouds and see the sun.
The annual China-Singapore International Symposium on The Frontiers of Physics was successfully held by The School of Physics, Sun Yat-sen University, on the third floor of Zhesheng Hall from November 20 to 23, 2019. More than 100 people including famous experts in experimental physics and theoretical physics from Singapore and domestic famous universities and the Chinese Academy of Sciences, ,as well as teachers and students, attended this conference. Professor Daoxin Yao, Associate Dean of the School of Physics, and Professor Jiangbin Gong, National University of Singapore, co-chaired the meeting.
At the beginning of the meeting, Prof. Daoxin Yao and Prof. Chornghaur Sow introduced in detail the School of Physics of Sun Yat-sen University and the Department of Physics of National University of Singapore, and extended a warm welcome to all the experts. During the 3-day meeting schedule, 40 famous physics experts from home and abroad made explanations in-depth on the latest progress of their own research and had a heated discussion. In addition to the condensed matter physics, computational physics, nano-optics, quantum information, biophysics and other fields involved in previous conferences, this conference has also opened up new fields such as particle physics. The combination of different research fields and the collision of different academic sparks laid a foundation for the success of the symposium. During the meeting, the participatants fully appreciated the beautiful campus and cultural atmosphere of Sun Yat-sen University, and visited the Advanced Academic Center and the national physics experimental teaching Center proposed by Mr. Zhenning Yang. At the end of the meeting, Professor Chornghaur Sow made a concluding speech. He highly praised the meeting, thanked the organizers and volunteers of the meeting, and expressed full affirmation of the cooperation and friendship between China and Singapore in the field of physics. So far, this meeting has achieved a complete success.
The expert representatives who made report at this meeting were: Academician Hai-qing Lin from Beijing Computational Science Center, Prof.Jiangbin Gong, Prof.Chornghaur Sow, Prof.Wei Ji and Prof.Jiansheng Wang from National University of Singapore, Prof.Jianqiang You from Zhejiang University, Prof.Xiaoji Zhou from Peking University, Prof.Yan Chen from Fudan University, Prof.Ke Xia from Southern University of Science and Technology, Prof.Jijun Zhao from Dalian University of Technology, Prof.Gang Chen from Hongkong University, Prof.Xi Chen and Prof.Enrique Solano from Shanghai University, Prof.Zixiang Hu from Chongqing University, Researcher Haijun Zhou from Institute of Theoretical Physics of Chinese Academy of Science, Prof.Dingyong Zhong, Prof.Chaohong Li, Prof.Shengshi Pang, Asso.Prof.Xin Wang from Sun Yat-sen University.
Singapore and famous universities in the Mainland of China. So far, 14 high-level international academic conferences have been held in the National University of Singapore, The University of Science and Technology of China, Lanzhou University, Zhejiang University, Huazhong University of Science and Technology and other places. The conference has become one of the most important communication platforms for physicists from both countries. After the successful holding of the 8th singapore-china frontiers in physics seminar at Sun Yat-sen University in 2012, the conference was held at Sun Yat-sen University again, which reflects the influence of Sun Yat-sen University in south China and its importance as a key academic node of One Belt And One Road.
The conference was chaired by Prof. Daoxin Yao (Sun Yat-sen University) and Prof. Jiangbin Gong (National University of Singapore). The Organizing Committee of the Conference (Sun Yat-sen University) is composed of Prof. Honghao Zhang, Prof. Zeliang Xiang , Prof. Peng Ye, Associate Prof. Hanqing Wu, Associate Prof. Zhongbo Yan, and Associate Prof. Wei Wu.
The latest discovery of high temperature superconductivity near 80 K in La3Ni2O7 under high pressure has attracted much attention. Many proposals are put forth to understand the origin of superconductivity. The determination of electronic structures is a prerequisite to establish theories to understand superconductivity in nickelates but is still lacking. Here we report our direct measurement of the electronic structures of La3Ni2O7 by high-resolution angle-resolved photoemission spectroscopy. The Fermi surface and band structures of La3Ni2O7 are observed and compared with the band structure calculations. Strong electron correlations are revealed which are orbital- and momentum-dependent. A flat band is formed from the Ni-3d orbitals around the zone corner which is ~ 50 meV below the Fermi level and exhibits the strongest electron correlation. In many theoretical proposals, this band is expected to play the dominant role in generating superconductivity in La3Ni2O7. Our observations provide key experimental information to understand the electronic structure and origin of high temperature superconductivity in La3Ni2O7.
The newly discovered Ruddlesden-Popper bilayer La3Ni2O7 reaches a remarkable superconducting transition temperature Tc ≈ 80 K under a pressure of above 14 GPa. Here we propose a minimal bilayer two-orbital model of the high-pressure phase of La3Ni2O7. Our model is constructed with the Ni-3dx2−y2 , 3d3z2−r2 orbitals by using Wannier downfolding of the density functional theory calculations, which captures the key ingredients of the material, such as band structure and Fermi surface topology. There are two electron pockets, α, β, and one hole pocket, γ, on the Fermi surface, in which the α, β pockets show mixing of two orbitals, while the γ pocket is associated with Ni-d3z2−r2 orbital. The random phase approximation spin susceptibility reveals a magnetic enhancement associated with the d3z2−r2 state. A higher energy model with O-p orbitals is also provided for further study.
We propose possible high-temperature superconductivity (SC) with singlet s±-wave pairing symmetry in the single-orbital Hubbard model on the square-octagon lattice with only nearest-neighbor hopping terms. Three different approaches are engaged to treat with the interacting model for different coupling strengths, which yield consistent results for the s± pairing symmetry. We propose octagraphene, i.e., a monolayer of carbon atoms arranged into this lattice, as a possible material realization of this model. Our variational Monte Carlo study for the material with realistic coupling strength yields a pairing strength comparable with the cuprates, implying a similar superconducting critical temperature between the two families. This study also applies to other materials with similar lattice structure.
We study the Neel-paramagnetic quantum phase transition in two-dimensional dimerized S=1/2 Heisenberg antiferromagnets using finite-size scaling of quantum Monte Carlo data. We resolve the long-standing issue of the role of cubic interactions arising in the bond-operator representation when the dimer pattern lacks a certain symmetry. We find nonmonotonic (monotonic) size dependence in the staggered (columnar) dimerized model, where cubic interactions are (are not) present. We conclude that there is a new irrelevant field in the staggered model, but, at variance with previous claims, it is not the leading irrelevant field. The new exponent is ω2 ≈ 1.25 and the prefactor of the correction L−ω2 is large and comes with a different sign from that of the conventional correction with ω1 ≈ 0.78. Our study highlights competing scaling corrections at quantum critical points.
We study the resonant inelastic x-ray scattering (RIXS) features of vector chiral ordered kagome antiferromagnets. Utilizing a group theoretical formalism that respects lattice site symmetry, we calculated the L-edge magnon contribution for the vesignieite compound BaCu3V2O8(OH)2. We show that polarization dependence of the L-edge RIXS spectrum can be used to track magnon branches. We predict a non-zero L-edge signal in the non-cross π−π polarization channel. At the K-edge, we derived the two-site effective RIXS and Raman scattering operator for two-magnon excitation in vesignieite using the Shastry–Shraiman formalism. Our derivation considers spin-orbit coupling effects in virtual hopping processes. We find vector chiral correlation (four-spin) contribution that is proportional to the RIXS spectrum. Our scattering operator formalism can be applied to a host of non-collinear non-coplanar magnetic materials at both the L and K-edge. We demonstrate that vector chiral correlations can be accessed by RIXS experiments.
Using quantum Monte Carlo, exact diagonalization, and perturbation theory, we study the spectrum of the S=1/2 antiferromagnetic Heisenberg trimer chain by varying the ratio g=J2/J1 of the intertrimer and intratrimer coupling strengths. The doublet ground states of trimers form effective interacting S=1/2 degrees of freedom described by a Heisenberg chain. Therefore, the conventional two-spinon continuum of width∝J1 when g=1 evolves into to a similar continuum of width∝J2 when g → 0. The intermediate-energy and high-energy modes are termed doublons and quartons which fractionalize with increasing g to form the conventional spinon continuum. In particular, at g≈0.716, the gap between the low-energy spinon branch and the high-energy band with mixed doublons, quartons, and spinons closes. These features should be observable in inelastic neutron scattering experiments if a quasi-one-dimensional quantum magnet with the linear trimer structure and J2
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We present a semiclassical explanation for the morphology of the surface Fermi arcs of Weyl semimetals. Viewing the surface states as a two-dimensional Fermi gas subject to band bending and Berry curvatures, we show that it is the non-parallelism between the velocity and the momentum that gives rise to the spiral structure of Fermi arcs. We map out the Fermi arcs from the velocity field for a single Weyl point and a lattice with two Weyl points. We also investigate the surface magnetoplasma of Dirac semimetals in a magnetic field, and find that the drift motion, the chiral magnetic effect and the Imbert-Fedorov shift are all involved in the formation of surface Fermi arcs. Our work not only provides an insightful perspective on the surface Fermi arcs and a practical way to find the surface dispersion, but also paves the way for the study of other physical properties of the surface states of topological semimetals, such as transport properties and orbital magnetization, using semiclassical methods.
Local constraint in the lattice gauge theory provides an exotic mechanism that facilitates the disorder-free localization. However, the understanding of nonequilibrium dynamics in the non-Hermitian lattice gauge model remains limited. Here, we investigate the quench dynamics in a system of spinless fermions with nonreciprocal hopping in the gauge field. By employing a duality mapping, we systematically explore the non-Hermitian skin effect, localization-delocalization transition, and real-complex transition. Through the identification of diverse scaling behaviors of quantum mutual information for fermions and spins, we propose that the non-Hermitian quantum disentangled liquids exist both in the localized and delocalized phases, the former originates from the Z2 gauge field and the latter arises from the non-Hermitian skin effect. Furthermore, we demonstrate that the nonreciprocal dissipation causes the flow of quantum information. Our results provide valuable insights into the nonequilibrium dynamics in the Z2 gauge field, and may be experimentally validated using quantum simulators.
Although high-transition-temperature (high-Tc) superconductivity in cuprates has been known for more than three decades, the underlying mechanism remains unknown. Cuprates are the only unconventional superconductors that exhibit bulk superconductivity with Tc above the liquid-nitrogen boiling temperature of 77 K. Here we observe that high-pressure resistance and mutual inductive magnetic susceptibility measurements showed signatures of superconductivity in single crystals of La3Ni2O7 with maximum Tc of 80 K at pressures between 14.0 GPa and 43.5 GPa. The superconducting phase under high pressure has an orthorhombic structure of Fmmm space group with the 3dx2−y2 and 3dz2 orbitals of Ni cations strongly mixing with oxygen 2p orbitals. Our density functional theory calculations indicate that the superconductivity emerges coincidently with the metallization of the σ-bonding bands under the Fermi level, consisting of the 3dz2 orbitals with the apical oxygen ions connecting the Ni–O bilayers. Thus, our discoveries provide not only important clues for the high-Tc superconductivity in this Ruddlesden–Popper double-layered perovskite nickelates but also a previously unknown family of compounds to investigate the high-Tc superconductivity mechanism.
The disorder operator is often designed to reveal the conformal field theory (CFT) information in quantum many-body systems. By using large-scale quantum Monte Carlo simulation, we study the scaling behavior of disorder operators on the boundary in the two-dimensional Heisenberg model on the square-octagon lattice with gapless topological edge state. In the Affleck-Kennedy-Lieb-Tasaki phase, the disorder operator is shown to hold the perimeter scaling with a logarithmic term associated with the Luttinger liquid parameter K. This effective Luttinger liquid parameter K reflects the low-energy physics and CFT for (1+1)D boundary. At bulk critical point, the effective K is suppressed but it keeps finite value, indicating the coupling between the gapless edge state and bulk fluctuation. The logarithmic term numerically captures this coupling picture, which reveals the (1+1)D SU(2)1 CFT and (2+1)D O(3) CFT at boundary criticality. Our Letter paves a new way to study the exotic boundary state and boundary criticality.
The Einstein-de Haas (EdH) effect is a fascinating phenomenon that links mechanics and magnetism. Despite being discovered over a century ago, it remains significant in contemporary science, particularly within the fields of spintronics and ultrafast magnetism. Recent predictions suggest that the EdH effect may be realized in topological magnon systems, potentially leading to even richer properties. In this perspective, we introduce recent advancements in the EdH effect and discuss its developments in three key aspects: the microscopic mechanism, its manifestation in topological systems, and chirality-selective magnon-phonon coupling. Our discussions aim to inspire further explorations of the EdH effect and highlight its promising applications in different areas.
JabRef is an open source reference management software, which is written in Java language, so it is born with cross platform features. It is generally used for windows, Linux and MAC with Java support. It can easily manage the documents downloaded to the machine and generate BibTex document database for use on LaTex or other softwares. Combination with Kile, Emacs, VIM, WinEdt and other softwares is also allowed. Generally speaking, the biggest feature of JabRef is its BibTex format, so it is suitable for LaTex users.
Overleaf is an online collaborative writing and publishing tool that makes the whole process of writing, editing and publishing scientific documents much quicker and easier. Overleaf provides the convenience of an easy-to-use LaTeX editor with real-time collaboration and the fully compiled output produced automatically in the background as you type.
Plus, Overleaf is designed to provide authors and publishers with the tools to effectively write, collaborate, submit, and manage an article through to publication—complementing existing project and editorial management software.
TeXstudio is an integrated writing environment for creating LaTeX documents which makes writing LaTeX is easy and comfortable. Therefore TeXstudio has numerous features like syntax-highlighting, integrated viewer, reference checking, and various assistants.
The ALPS project (Algorithms and Libraries for Physics Simulations) is an open source effort aiming at providing high-end simulation codes for strongly correlated quantum mechanical systems as well as C++ libraries for simplifying the development of such code. ALPS strives to increase software reuse in the physics community.
A popular science article on frustrated magnetism completed by Prof. Yao and Dr. Xiong in our research group. The article tells basic theories on frustrated magnetism and RIXS in a simple way which is suitable for junior students.
TRIQS (Toolbox for Research on Interacting Quantum Systems) is a scientific project providing a set of C++ and Python libraries to develop new tools for the study of interacting quantum systems.
The goal of this toolkit is to provide high level, efficient and simple to use libraries in C++ and Python, and to promote the use of modern programming techniques.
TRIQS is a free software distributed under the GPL license.
Employment:
Education:
Based on the time of joining the group
Asso. Prof. ,2012-now
Postdoctoral researcher, National Institute of Materials Science (NIMS), Japan, 2010–2012
Research assistant, Chinese University of Hong Kong, 2009
Ph.D., Beijing Normal University, 2009
Research interests: Superconducting theory, Quantum physics
Asso. Prof. ,2017-now
Research scholar, California State University, Northridge, 2016-2017
Ph.D., Renmin University of China, 2009
Research interests: Correlated electron system
Asso. Prof. ,2018-now
Postdoctoral researcher, Institute of advanced research, Tsinghua University, 2015–2018
Ph.D., University of science and technology of China, 2015
Research interests: Topological state of matter
Asso. Prof. ,2018-now
Ph.D., Institute of physics, Chinese Academy of Sciences, 2013
Research interests: High temperature superconductivity theory
Asso. Prof. ,2020-now
Postdoctoral researcher, the University of California Irvine, 2016–2020
Ph.D., Fudan University, 2016
Research interests: Magnetism, spin liquids and topological insulators in condensed matter physics
Asso. Prof. ,2020-now
Computational scientist, Daresbury Laboratory, UK. 2018-2020
Postdoc, University of Oxford. 2012-2017
Ph.D., University of Science and Technology of China. 2012
Research interest: Ab initio methods, magnetism
8th year graduate student, 2017-now
Research interests: Strongly correlated system
7th year graudate student, 2018-now
Research interests: Superconductivity
4th year graudate student, 2021-now
Research interests: Superconductor
5th year graudate student, 2017-now
Research interests: Quantum spin liquid
5th year graudate student, 2020-now
Research interests:
2nd year graudate student, 2023-now
Research interests: First-principle study, topological materials
4th year graudate student, 2021-now
Research interests: Time-dependent density functional perturbation theory
4th year graudate student, 2021-now
Research interests: RIXS,orbital order
4th year graudate student, 2021-now
Research interests:
1st year graudate student, 2024-now
Research interests:
3rd year graudate student, 2022-now
Research interests: Quantum Monte Carlo Calculation of the Two Dimensional Heisenberg Checkerboard Model
1st year graudate student, 2024-now
Research interests:
4th year graudate student, 2021-now
Research interests: Computational physics
3rd year graudate student, 2022-now
Research interests: Quantum Monte Carlo simulation, phase transition, Heisenberg model
3rd year graudate student, 2022-now
Research interests: Resonant Inelastic X-ray Scattering Studies of Magnetic Excitations spectrum
3rd year graudate student, 2022-now
Research interests: The DQMC method studies strongly correlated fermion systems
3rd year graudate student, 2022-now
Research interests: Gilbert damping in high entropy alloy
3rd year graudate student, 2022-now
Research interests: QMC in trimer
3rd year graudate student, 2022-now
Research interests: First-principles study of two-dimensional magnetic materials
3rd year graudate student, 2022-now
Research interests: Spin glass and complex system
3rd year graudate student, 2022-now
Research interests:
2nd year graudate student, 2023-now
Research interests: Quantum magnetism
2nd year graudate student, 2023-now
Research interests: Using DMRG to Study Quantum Many-Body Problems
2nd year graudate student, 2023-now
Research interests: High Tc superconductor
2nd year graudate student, 2023-now
Research interests: High Tc superconductor
1st year graudate student, 2024-now
Research interests: First-principle study on nickelate superconductor and magnetic materials
1st year graudate student, 2024-now
Research interests:
1st year graudate student, 2024-now
Research interests: Topological material
1st year graudate student, 2024-now
Research interests: correlated electron systems and supercondutors
1st year graudate student, 2024-now
Research interests: nickelate supercondutors
Researcher Fellow in Great Bay University, 2022-now
Postdoctoral Researcher, 2019-2022
Ph.D., Zhejiang University, 2018
Research interests: Quantum magnetism, Quantum open dynamics
Research Fellow in Shenzhen University 2020-now
Research Fellow 2017-2020
Asso. Prof. in Chongqing University 2018-now
Research Fellow 2017-2018
Research Fellow, 2018-2020
Lecturer in Yanshan University, 2020-now
Asso. Prof. in Hangzhou University of Electronic Science and technology, 2020-now
Postdoctoral researcher 2017-2020
Asso.Prof. in Foshan University 2016-now
Ph.D. student 2008-2015
Ph.D. student 2009-2015
Postdoctoral researcher in National Tsing Hua University, Taiwan 2017-now
Ph.D. student 2011-2017
Asso.Prof. in Beihang University 2020-now
Postdoctoral researcher in IOP, CAS 2017-2020
Ph.D. student 2011-2017
Ph.D. student 2012-2018
Ph.D. student 2012-2017
Postdoctoral researcher at Guangzhou University 2018-now
Ph.D. student 2013-2018
Asso.Prof. at Chongqing Normal University 2019-now
Ph.D. Student 2014-2019
Postdoctoral researcher at City University of Hong Kong 2019-now
Ph.D. student 2015-2018
Research Fellow in Chongqing University 2020-now
Ph.D. Student 2015-2020
Ph.D. student, 2017-2021
Research interests: Topological matter, 2D electronic system
Ph.D. student, 2016-2021
Research interests: Quantum magnetism, quantum Monte Carlo
Postdoctoral researcher at Shenzhen Institutes of Advanced Technology,Chinese Academy of Sciences 2020-now
Ph.D. Student 2016-2020
Ph.D student, 2017-2023
Research interests: heavy fermions, superconductivity
Ph.D student, 2019-2023
Research interests: First-Principles Theory
Ph.D. student, 2018-2024
Research interests: Twistronics
Ph.D. student,, 2019-2024
Research interests: Topological superconductor
Ph.D. student, 2019-2024
Research interests: Quantum Monte Carlo
M.S. Student 2011-2014
M.S. Student 2012-2015
M.S. Student 2012-2015
M.S. Student 2013-2016
M.S. Student 2013-2016
M.S. Student 2013-2016
Ph.D. Student at University of Tsukuba 2017-now
M.S. Student 2014-2017
Ph.D. Student at KITS, UCAS 2018-now
M.S. Student 2014-2017
Ph.D. student in Boston University 2018-now
M.S. Student 2015-2018
M.S. Student 2016-2020
Ph.D. student in Peking University 2019-now
M.S. Student 2016-2019
M.S. Student 2016-2019
M.S. Student 2016-2020
Ph.D. student in University of Hong Kong 2019-now
M.S. Student 2016-2019
Ph.D. student in NUS 2020-now
M.S. Student 2017-2020
M.S. Student 2017-2020
M.S. student, 2017-2021
Ph.D. student in University of Hong Kong 2021-now
M.S. student, 2018-2021
M.S. student, 2019-2022
M.S. student, 2019-2022
M.S. student, 2020-2023
Research interests:
M.S. student, 2020-2023
Research interests:
M.S. student, 2020-2023
Research interests:
M.S. student, 2021-2023
Research interests: First principle calculation
M.S. student, 2021-2024
Research interests: Anomalous Hall Effect, Heterojunction, Skyrmion
M.S. student, 2021-2024
Research interests: Topological superconductor and heterojunction
M.S. student, 2021-2024
Research interests: Computational quantum many body physics
M.S. student, 2021-2024
Research interests: Quantum Monte Carlo simulations and the stochastic series expansion method
Cui-Qun Chen, Wenyuan Qiu, Zhihui Luo, Meng Wang, Dao-Xin Yao, Electronic structures and superconductivity in Nd-doped La3Ni2O7, Sci. China-Phys. Mech. Astron. 69, 247414(2026).
Zhi-Yan Shao, Jia-Heng Ji, Congjun Wu, Dao-Xin Yao, Fan Yang, Possible liquid-nitrogen-temperature superconductivity driven by perpendicular electric field in the single-bilayer film of La3Ni2O7 at ambient pressure, Nat Commun (2026).
Jihai Zhang, Meng-Han Zhang, Peigen Li, Zizhao Liu, Ye Tao, Hongkun Wang, Dao-Xin Yao, Donghui Guo, Dingyong Zhong, Observation of Topological Magnon Edge States, ACS Nano, 20(1), 700-708 (2026).
Yumeng Luo, Yuehong Li, Mengfan Jiang, Muwei Wu, Jian-Jian Yang, Dao-Xin Yao, and Han-Qing Wu, Ground state phase diagram and Haldane-like symmetry-protected phase in the s=1/2 Heisenberg model on the two-dimensional square-hexagon-octagon lattice, Phys. Rev. B 113, 045103 (2026).
Wanxing Lin, Hanchen Deng, Baotian Wang, Dao-Xin Yao, Chiral Magnons: Mechanisms and Research Progress, Acta Phys. Sin., 75(5) (2026).
Zhongyi Xie, Zhihui Luo, Wei Wu, Dao-Xin Yao, Evolution of correlated electrons in La3Ni2O7 at ambient pressure: a study of double-counting effect, AAPPS Bull. 35, 36 (2025).
Kunpeng Li, Han-Qing Wu, Dao-Xin Yao, Mott glass and criticality in an s=1/2 bilayer Heisenberg model with interlayer bond dilution, Phys. Rev. B 112, 214407 (2025).
Xuan Guo, Meng-Han Zhang, Dao-Xin Yao, Higher-Order Topological States in Chiral Split Magnons of Honeycomb Altermagnets, Chinese Phys. Lett. 42 120703 (2025).
Yi Liu, Ding Wang, Xin Wang, Dao-Xin Yao and Lei-Han Tang, Magnetization-resolved density of states and mixed-order transition in the two-dimensional random bond Ising model: an entropic sampling study, Commun. Theor. Phys. 77 125603 (2025).
Xunwu Hu, Wenyuan Qiu, Cui-Qun Chen, Zhihui Luo, Dao-Xin Yao, Electronic structures and multi-orbital models of La3Ni2O7 thin films at ambient pressure, Commun Phys (2025).
Kai-Yuan Qi, Shangjian Jin, Trinanjan Datta, Dao-Xin Yao, Multimagnon and multispinon 𝐿3-edge RIXS spectra of an effective J1-J2-J3 square-lattice Heisenberg model, Phys. Rev. B 112, 134438 (2025).
Jia-wan Li, Xiao-Sheng Ni, Lin Zhuang, Dao-Xin Yao, Ruqian Wu, Yusheng Hou, Near room-temperature magnetic nodal-line semiconductors in technetium-based self-intercalated van der Waals ferrimagnets, Commun Phys 8, 382 (2025).
Jun Li, Wenqi Fang, Shangjian Jin, Chenyu Suo, Tengdong Zhang, Yanling Wu, Xiaodan Xu, Yong Liu, Dao-Xin Yao, A deep learning approach to search for superconductors from electronic bands, AI Sci. 1, 015001 (2025).
Jinbin Liu, Dao-Xin Yao, Wei Wu, Interplay between the Pseudogap and Superconductivity in Doped Mott Insulators: a Cluster Dynamical Mean-Field Theory Study, Chinese Phys. Lett. 42 080711 (2025).
Tengdong Zhang, Chenyu Suo, Yanling Wu, Xiaodan Xu, Yong Liu, Dao-Xin Yao, Jun Li, SuperBand: an Electronic-band and Fermi surface structure database of superconductors, Sci Data 12, 744 (2025).
Jia-wan Li, Cui-Qun Chen, Lin Zhuang,Dao-Xin Yao, Yusheng Hou, Coexistence of topological nodal lines and Weyl nodes in a room-temperature half-metallic ferromagnet Cr3Si2Te6, Appl. Phys. Lett. 126, 072407 (2025).
Lingyong Zeng, Xunwu Hu, Yuzhang Zhou, Yang Liu, Matt Boswell, Weiwei Xie, Kuan Li, Longfu Li, Peifeng Yu, Chao Zhang, Wei-Ming Guo, Dao-Xin Yao, Huixia Luo, Superconductivity and non-trivial band topology in high-entropy carbonitride Ti0.2Nb0.2Ta0.2Mo0.2W0.2C1-xNx, The Innovation Materials 1(3) (2025).
Yitong Yao, Jun Li, Jiacheng Ye, Fan Yang and Dao-Xin Yao, Electric Field Induced Superconductivity in Bilayer Octagraphene, Chinese Phys. Lett. 42 067504 (2025).
Yuchao Zheng, Muwei Wu, Dao-Xin Yao, and Han-Qing Wu, Exact diagonalization study of the triangular Heisenberg model with four-spin ring-exchange interaction, Phys. Rev. B 111, 195145 (2025).
Yi Liu, Ding Wang, Xin Wang, Dao-Xin Yao and Lei-Han Tang, Magnetization-resolved density of states and mixed-order transition in the two-dimensional random bond Ising model: an entropic sampling study, Commun. Theor. Phys. 77 125603 (2025).
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Yifeng Han,Yijie Zeng,Mylène Hendrickx,Joke Hadermann,Peter W.Stephens,Chuanhui Zhu,Christoph P.Grams,Joachim Hemberger,Corey Frank,Shufang Li, MeiXia Wu,Maria Retuerto,Mark Croft,David Walker,Dao-Xin Yao,Martha Greenblatt and Man-Rong Li, Universal A-Cation Splitting in LiNbO3-Type Structure Driven by Intrapositional Multivalent Coupling, Journal of the American Chemical Society, 142(15), 7168-7178 (2020).
Meizhuang Liu,Changwei Wu,Zizhao Liu,Zhiqiang Wang,Dao-Xin Yao and Dingyong Zhong, Multimorphism and gap opening of charge-density-wave phases in monolayer VTe2, Nano Research, 13, 1733-1738 (2020).
Zijian Xiong,Dao-Xin Yao and Zhongbo Yan, Nonanalyticity of circuit complexity across topological phase transitions, Physical Review B, 101(17), 174305 (2020).
Shangjian Jin,Cheng Luo,Trinanjan Datta and Dao-Xin Yao, Torque equilibrium spin wave theory study of anisotropy and Dzyaloshinskii-Moriya interaction effects on the indirect K-edge RIXS spectrum of a triangular lattice antiferromagnet, Physical Review B, 100(5), 054410 (2019).
Sean Mongan,Zengye Huang,Trinanjan Datta,Takuji Nomura and Dao-Xin Yao, Detecting Crystallographic Lattice Chirality using Resonant Inelastic X-ray Scattering, Scientific Reports, 9, 12771 (2019).
Yijie Zeng,Luyang Wang,Song Li,Chunshan He,Dingyong Zhong and Dao-Xin Yao, Topological phase transition induced by magnetic proximity effect in two dimensions, Journal of Physics-Condensed Matter, 31(2), 395502 (2019).
Yao-Tai Kang,Chen Lu,Fan Yang and Dao-Xin Yao, Single-orbital realization of high-temperature s(+/-) superconductivity in the square-octagon lattice, Physical Review B, 99(18), 184506 (2019).
Chang-Wei Wu,Jun-Han Huang and Dao-Xin Yao,Tunable room-temperature ferromagnetism in the SiC monolayer, Journal of Magnetism and Magnetic Materials, 469, 306-314 (2019).
Yining Xu,Zijian Xiong,Han-Qing Wu and Dao-Xin Yao, Spin excitation spectra of the two-dimensional S=1/2 Heisenberg model with a checkerboard structure, Physical Review B, 99(8), 085112 (2019).
Wanxing Lin,Shi-Dong Liang,Chunshan He,Wucheng Xie,Haiying He,Quanxiang Mai,Jiesen Li and Dao-Xin Yao, Stabilities and novel electronic structures of three carbon nitride bilayers, Scientific Reports, 9, 1025 (2019).
Yi-Ru Hao,Luyang Wang and Dao-Xin Yao, Imbert-Fedorov shift in pseudospin-N/2 semimetals and nodal-line semimetals, Physical Review B, 99(16), 165406 (2019).
Chang-Wei Wu and Dao-Xin Yao, Robust p-orbital half-metallicity and high Curie-temperature in the hole-doped anisotropic TcX2 (X = S, Se) nanosheets, Journal of Magnetism and Magnetic Materials, 478, 68-76 (2019).
Xiaoxue Ran,Nvsen Ma and Dao-Xin Yao, Criticality and scaling corrections for two-dimensional Heisenberg models in plaquette patterns with strong and weak couplings, Physical Review B, 99(17), 174434 (2019).
Liangliang Zheng,Benjamin A. Frandsen,Changwei Wu,Ming Yi,Shan Wu,Qingzhen Huang Edith Bourret-Courchesne,G. Simutis,R. Khasanov,Dao-Xin Yao,Meng Wang and Robert J. Birgeneau, Gradual enhancement of stripe-type antiferromagnetism in the spin-ladder material BaFe2S3 under pressure, Physical Review B, 98(18), 180402 (2018).
Jun-Hui Zheng,Dao-Xin Yao and Zhi Wang, Spatial Rabi oscillations between Majorana bound states and quantum dots, Beilstein Journal of Nanotechnology, 9, 1527-1535 (2018).
Chengkang Zhou,Yuanwei Feng,Jiawei Ruan and Dao-Xin Yao, XXZ-Ising model on the triangular kagome lattice with spin 1 on the decorated trimers, Physical Review E, 98(1), 012127 (2018).
Yijie Zeng,Song Li,Ruikuan Xie,Yan Huang,Aijiang Lu,Ching Fong,Xiaoshuang Chen,Huaizhong Xing and Dao-xin Yao, Phosphorus-Doped CdS Nanowires Showing n-Type Behavior, Physica Status Solidi B-Basic Solid State Physics, 255, 1800294 (2018).
Yining Xu and Dao-Xin Yao, Spin glass in the bond-diluted J(1)-J(2) Ising model on the square lattice, Physical Review B, 97(22), 224419 (2018).
Luyang Wang and Dao-Xin Yao, Coexistence of spin-1 fermion and Dirac fermion on the triangular kagome lattice, Physical Review B, 98(16), 161403 (2018).
Yu-Rong Shu,Maxime Dupont,Dao-Xin Yao,Sylvain Capponi and Anders W. Sandvik, Dynamical properties of the S=1/2 random Heisenberg chain, Physical Review B, 97(10), 104424 (2018).
Nvsen Ma,Phillip Weinberg,Hui Shao,Wenan Guo,Dao-Xin Yao and Anders W. Sandvik, Anomalous Quantum-Critical Scaling Corrections in Two-Dimensional Antiferromagnets, Physical Review Letters, 121(11), 117202 (2018).
Wanxing Lin,Jiesen Li,Weiliang Wang,Shi-Dong Liang and Dao-Xin Yao, Electronic Structure and Band Gap Engineering of Two-Dimensional Octagon-Nitrogene, Scientific Reports, 8, 1674 (2018).
Jia-Long Zhang,Wen Huang and Dao-Xin Yao, Spontaneous surface current in multicomponent cubic superconductors with time-reversal symmetry breaking, Physical Review B, 98(1), 014511 (2018).
Jia-Long Zhang,Wen Huang,Manfred Sigrist and Dao-Xin Yao, Interband interference effects at the edge of a multiband chiral p-wave superconductor,Physical Review B, 96 (22), 224504 (2017).
Zijian Xiong,Trinanjan Datta,Kenneth Stiwinter and Dao-Xin Yao, Magnon-phonon coupling effects on the indirect K-edge resonant inelastic x-ray scattering spectrum of a two-dimensional Heisenberg antiferromagnet, Physical Review B, 96(14), 144436 (2017).
HongHuang,Qi-FengLiang,Dao-XinYao and ZhiWang, Critical current anomaly at the topological quantum phase transition in a Majorana Josephson junction, Physics Letters A, 381 (24), 2033-2039 (2017).
Meng Wang,S. J. Jin,Ming Yi,Yu Song,H. C. Jiang,W. L. Zhang,H. L. Sun,H. Q. Luo,A. D. Christianson,E. Bourret-Courchesne,D. H. Lee,Dao-Xin Yao and R. J. Birgeneau, Strong ferromagnetic exchange interaction under ambient pressure in BaFe2S3, Physical Review B, 95(6), 060502 (2017).
Yu-Rong Shu,Shuai Yin and Dao-Xin Yao, Universal short-time quantum critical dynamics of finite-size systems, Physical Review B, 96(9), 094304 (2017).
Z. B. Li,Y. M. Liu,Dao-Xin Yao and C. G. Bao, Two types of phase diagrams for two-species Bose-Einstein condensates and the combined effect of the parameters, Journal of Physics B-Atomic Molecular and Optical Physics, 50(13), 135301 (2017).
Yao-Tai Kang,Wei-Feng Tsai and Dao-Xin Yao, Modulation of pairing symmetry with bond disorder in unconventional superconductors, Physical Review B, 95(13), 134513 (2017).
Zengye Huang,Sean Mongan,Trinanjan Datta and Dao-Xin Yao, Indirect K-edge bimagnon resonant inelastic x-ray scattering spectrum of alpha-FeTe, Journal of Physics-Condensed Matter, 29(50), 505802 (2017).
HongHuang,Qi-FengLiang,Dao-XinYao and ZhiWanga, Majorana phi(0)-junction in a disordered spin-orbit coupling nanowire with tilted magnetic field, Physica C-Superconductivity and Its Applications, 543, 22-26 (2017).
Z. B. Li,Dao-Xin Yao,Y. Z. He and C. G. Bao, A 2-Level Condensate with Tunable and Sharp Susceptibility Against the Magnetic Field, Journal of Low Temperature Physics, 182, 13-27 (2016).
Jie-Sen Li,Wei-Liang Wang and Dao-Xin Yao, Band Gap Engineering of Two-Dimensional Nitrogene, Scientific Reports, 6, 34177 (2016).
Qing Jiang and Dao-Xin Yao, Magnetic order driven by orbital ordering in the semiconducting KFe1.5Se2, Frontiers of Physics, 11, 117401 (2016).
Jin-Qin Huang,Chuang-Han Hsu,Hsin Lin,Dao-Xin Yao and Wei-Feng Tsai, Chiral p-wave superconductivity in Sb(111) thin films close to Van Hove singularities, Physical Review B, 93(15), 155108 (2016).
Yu-Rong Shu Dao-Xin Yao,Chih-Wei Ke,Yu-Cheng Lin and Anders W. Sandvik, Properties of the random-singlet phase: From the disordered Heisenberg chain to an amorphous valence-bond solid, Physical Review B, 94(17), 174442 (2016).
Cheng Luo,Trinanjan Datta and Dao-Xin Yao, Spin and quadrupolar orders in the spin-1 bilinear-biquadratic model for iron-based superconductors, Physical Review B, 93(23), 235148 (2016).
Meng Wang,Ming Yi,Shangjian Jin,Hongchen Jiang,Yu Song,Huiqian Luo,A. D. Christianson,C. de la Cruz,E. Bourret-Courchesne,Dao-Xin Yao,D. H. Lee and R. J. Birgeneau, Spin waves and magnetic exchange interactions in the spin-ladder compound RbFe2Se3, Physical Review B, 94(4), 041111 (2016).
Yu-Ting Tam,Dao-Xin Yao and Wei Ku, Itinerancy-Enhanced Quantum Fluctuation of Magnetic Moments in Iron-Based Superconductors, Physical Review Letters, 115(11), 117001 (2015).
Yu Zhang,Jason Lee,Wei-Liang Wang and Dao-Xin Yao, Two-dimensional octagon-structure monolayer of nitrogen group elements and the related nano-structures, Computational Materials Science, 110, 109-114 (2015).
Zhi Wang,Qi-Feng Liang,Dao-Xin Yao and Xiao Hu, Viewing Majorana Bound States by Rabi Oscillations, Scientific Reports, 5, 11686 (2015).
Meng Wang,P. Valdivia,Ming Yi,J. X. Chen,W. L. Zhang,R. A. Ewings,T. G. Perring,Yang Zhao,L. W. Harriger,J. W. Lynn,E. Bourret-Courchesne,Pengcheng Dai,D. H. Lee,D. X. Yao and R. J. Birgeneau, Spin waves and spatially anisotropic exchange interactions in the S=2 stripe antiferromagnet Rb0.8Fe1.5S2, Physical Review B, 92, 049901 (2015).
Wen-Chuan Tian,Zhi Wang and Dao-Xin Yao, Fidelity susceptibility in multiband one-dimensional topological superconducting system, International Journal of Modern Physics B, 29, 1542034 (2015).
Wen-Chuan Tian,Guang-Yao Huang,ZhiWang and Dao-XinYao, Fidelity approach in topological superconductors with disorders, Physics Letters A, 379(7), 719-722 (2015).
Cheng Luo,Trinanjan Datta,Zengye Huang and Dao-Xin Yao, Signatures of indirect K-edge resonant inelastic x-ray scattering on magnetic excitations in a triangular-lattice antiferromagnet, Physical Review B, 92(3), 035109 (2015).
Z. B. Li,Dao-Xin Yao and C. G. Bao, Spin-Thermodynamics of Ultra-Cold Spin-1 Atoms, Journal of Low Temperature Physics, 180, 200-213 (2015).
Jason Lee,Wen-Chuan Tian,Wei-Liang Wang and Dao-Xin Yao, Two-Dimensional Pnictogen Honeycomb Lattice: Structure,On-Site Spin-Orbit Coupling and Spin Polarization, Scientific Reports, 5, 11512 (2015).
Wen-Chao Huang,Qi-Feng Liang,Dao-Xin Yao and Zhi Wang, Manipulating the Majorana qubit with Landau-Zener-Stuckelberg interference, Physical Review A, 92(1), 012308 (2015).
Wen-Chao Huang,Qi-Feng Liang,Dao-Xin Yao and Zhi Wang, Flux qubit in a dc SQUID with the 4 pi period Josephson effect, EPL, 110(3), 37010 (2015).
Z. Cai,M. Liu,L. She,X. Li,J. Lee,Dao-Xin Yao,H. Zhang,L. Chi,H. Fuchs and D. Zhong, Linear Alkane CC Bond Chemistry Mediated by Metal Surfaces, Chemphyschem, 16(7), 1356-1360 (2015).
Nvsen Ma,Anders W. Sandvik and Dao-Xin Yao, Criticality and Mott glass phase in a disordered two-dimensional quantum spin system, Physical Review B, 90(10), 104425 (2014).
Cheng Luo,Trinanjan Datta and Dao-Xin Yao, Spectrum splitting of bimagnon excitations in a spatially frustrated Heisenberg antiferromagnet revealed by resonant inelastic x-ray scattering, Physical Review B, 89, 165103 (2014).
Wan-Ju Li,Dao-Xin Yao and E. W. Carlson, Tunable nano Peltier cooling device from geometric effects using a single graphene nanoribbon, Frontiers of Physics, 9, 472-476 (2014).
Hai Li,Jianmei Shao,Daoxin Yao and Guowei Yang, Gate-Voltage-Controlled Spin and Valley Polarization Transport in a Normal/Ferromagnetic/Normal MoS2 Junction, Acs Applied Materials and Interfaces, 6(3), 1759-1764 (2014).
Zheng-Da Hua,Jing-Bo Xu,Dao-Xin Yao, Sudden transition and sudden change from open spin environments, Annals of Physics, 350, 588-604 (2014).
Chenglin Zhang,H.-F. Li,Yu Song,Yixi Su,Guotai Tan,Tucker Netherton,Caleb Redding,Scott V. Carr,Oleg Sobolev,Astrid Schneidewind,Enrico Faulhaber,L. W. Harriger,Shiliang Li,Xingye Lu,Dao-Xin Yao,Tanmoy Das,A. V. Balatsky,Th. Br\"uckel,J. W. Lynn and Pengcheng Dai, Distinguishing s(+/-) and s(++) electron pairing symmetries by neutron spin resonance in superconducting NaFe0.935Co0.045As, Physical Review B, 88(6), 064504 (2013).
H. Li,J. M. Shao,H. B. Zhang,Dao-Xin Yao and G. W. Yang, Resonant tunneling in a topological insulator superlattice, Journal of Applied Physics, 114(9), 4820268 (2013).
Qing Jiang,Yao-Tai Kang and Dao-Xin Yao, Spin,charge and orbital orderings in iron-based superconductors, Chinese Physics B, 22(8), 087402 (2013).
Guang-Yao Huang,Shi-Dong Liang and Dao-Xin Yao, Edge states and topological orders in the spin liquid phases of star lattice, European Physical Journal B, 86, 379 (2013).
Qi-Liang He,Jing-Bo Xu,Dao-XinYao and Ye-Qi Zhang, The quantum correlation dynamics of two qubits in finite-temperature environments with dynamical decoupling pulses, Annals of Physics, 334, 24-34 (2013).
Qi-Liang He,Jing-Bo Xu and Dao-Xin Yao, Mediating and inducing quantum correlation between two separated qubits by one-dimensional plasmonic waveguide, Quantum Information Processing, 12, 3023-3031 (2013).
Zewei Chen,Trinanjan Datta and Dao-Xin Yao, Spin transport in the Neel and collinear antiferromagnetic phase of the two dimensional spatial and spin anisotropic Heisenberg model on a square lattice, European Physical Journal B, 86, 63 (2013).
Zhi Wang,Qi-Feng Liang,Dao-Xin Yao, Fidelity in topological superconductors with end Majorana fermions, Physics Letters A, 377(38), 2653-2658 (2013).
Zhao-Huan Yu,Jia-Ming Zheng Xiao-Jun Bi,Zhi-Bing Li,Dao-Xin Yao,Hong-HaoZhang, Constraining the interaction strength between dark matter and visible matter: II. Scalar, vector and spin-3/2 dark matter, Nuclear Physics B, 860, 115-151 (2012).
Zhao-Huan Yu,Jing-Kun Chen,Dao-Xin Yao,Qing Wang and Hong-Hao Zhang, Status of Dark Matter Direct Detection Experiments, Acta Scientiarum Naturalium Universitatis Sunyatseni, 51(3), 1-6, 17 (2012).
Chen Liu,Dao-Xin Yao and Anders W. Sandvik, Two-orbital quantum spin model of magnetism in the iron pnictides, Physical Review B, 85(9), 094410 (2012).
Jie-Sen Li,Zhi-Bing Li and Dao-Xin Yao, Quantum computation with two-dimensional graphene quantum dots, Chinese Physics B, 21(1), 017302 (2012).
H. Li,H. B. Zhang,J. M. Shao,Y. Y. Zhang,Dao-Xin Yao and G. W. Yang, Topological insulator-graphene junction for spin transport, Applied Physics Letters, 101 (24), 243102 (2012).
Trinanjan Datta and Dao-Xin Yao, Effects of magnetic field,anisotropy and biquadratic interactions in type-IIA fcc antiferromagnets studied by linear spin-wave theory, Physical Review B, 85, 054409 (2012).
Yao-Hua Chen,Hong-Shuai Tao,Dao-Xin Yao and Wu-Ming Liu, Kondo Metal and Ferrimagnetic Insulator on the Triangular Kagome Lattice, Physical Review Letters, 108(24), 246402 (2012).
Jia-Ji Zhu,Dao-Xin Yao,Shou-Cheng Zhang and Kai Chang, Electrically Controllable Surface Magnetism on the Surface of Topological Insulators, Physical Review Letters, 106(9), 097201 (2011).
Dao-Xin Yao, Iron-based superconductors: A new family to find the origin of high T-c superconductivity, Frontiers of Physics, 6(4), 344-346 (2011).
Miaoyin Wang,Chen Fang,Dao-Xin Yao,GuoTai Tan,Leland W.Harriger,Yu Song,Tucker Netherton,Chenglin Zhang,Meng Wang,Matthew B.Stone,Wei Tian,Jiangping Hu and Pengcheng Dai, Spin waves and magnetic exchange interactions in insulating Rb0.89Fe1.58Se2, Nature Communications, 2(1), 580 (2011).
L. Ma,G. F. Chen,Dao-Xin Yao,J. Zhang,S. Zhang,T.-L. Xia and Weiqiang Yu, Na-23 and As-75 NMR study of antiferromagnetism and spin fluctuations in NaFeAs single crystals, Physical Review B, 83(13), 132501 (2011).
Qinlong Luo,Dao-Xin Yao,Adriana Moreo and Elbio Dagotto, Charge stripes in the two-orbital Hubbard model for iron pnictides, Physical Review B, 83(17), 174513 (2011).
Qinlong Luo,Andrew Nicholson,José Riera,Dao-Xin Yao,Adriana Moreo and Elbio Dagotto, Magnetic state of K0.8Fe1.6Se2 from a five-orbital Hubbard model in the Hartree-Fock approximation, Physical Review B, 84, 140506 (2011).
Da-Wei Luo,Hai-Qing Lin,Jing-Bo Xu and Dao-Xin Yao, Pulse control of sudden transition for two qubits in XY spin baths and quantum phase transition, Physical Review A, 84(6), 062112 (2011).
Simian Li,Huan Huang,Weiling Zhu,Wenfang Wang,Ke Chen,Dao-xin Yao,Yang Wang,Tianshu Lai,Yiqun Wu and Fuxi Gan, Femtosecond laser-induced crystallization of amorphous Sb(2)Te(3) film and coherent phonon spectroscopy characterization and optical injection of electron spins, Journal of Applied Physics, 110(5), 3633228 (2011).
Pengcheng Dai,Xing-jiang Zhou and Dao-xin Yao, Energizer keep going:100 years of superconductivity, Frontiers of Physics, 6, 343-343 (2011).
Qi-Liang He,Jing-Bo Xu,Dao-Xin Yao and Ye-Qi Zhang, Sudden transition between classical and quantum decoherence in dissipative cavity QED and stationary quantum discord, Physical Review A, 84(2), 022312 (2011).
Qinlong Luo,George Martins,Dao-Xin Yao,Maria Daghofer,Rong Yu, Neutron and ARPES constraints on the couplings of the multiorbital Hubbard model for the iron pnictides, Physical Review B, 82(10), 104508 (2010).
Dao-Xin Yao,Jonas Gustafsson,E. W. Carlson and Anders W. Sandvik, Quantum phase transitions in disordered dimerized quantum spin models and the Harris criterion, Physical Review B, 82(17), 172409 (2010).
Dao-xin Yao and E. W.Carlson, Magnetic excitations of undoped iron oxypnictides, Frontiers of Physics in China, 5, 166-170 (2010).
Shi-liang Li,Dao-xin Yao,Yi-ming Qiu,Hye Jung Kang,E. W. Carlson,Jiang-ping Hu,Gen-fu Chen,Nan-lin Wang and Peng-cheng Dai, Low-energy Ce spin excitations in CeFeAsO and CeFeAsO0.84F0.16, Frontiers of Physics in China, 5, 161-165 (2010).
Valeri N. Kotov,Dao-xin Yao,A. H. Castro Neto and D. K. Campbell, Reply to "Comment on 'Quantum phase transition in the four-spin exchange antiferromagnet' ", Physical Review B, 82(13), 136402 (2010).
M. Daghofer,Q. L. Luo,R. Yu,Dao-Xin Yao,A. Moreo and E. Dagotto, Orbital-weight redistribution triggered by spin order in the pnictides, Physical Review B, 81(18), 180514 (2010).
Jun Zhao,D. T. Adroja,Dao-Xin Yao,R. Bewley,Shiliang Li,X. F. Wang,G. Wu,X. H. Chen,Jiangping Hu and Pengcheng Dai, Spin waves and magnetic exchange interactions in CaFe2As2, Nature Physics, 5(8), 555-560 (2009).
Wei-Feng Tsai,Dao-Xin Yao,B. Andrei Bernevig and JiangPing Hu, Properties of Josephson junctions involving the cos(k(x))center dot cos(k(y)) pairing state in iron pnictides, Physical Review B, 80(1), 012511 (2009).
Valeri N. Kotov,Dao-Xin Yao,A. H. Castro Neto and D. K. Campbell, Quantum phase transition in the four-spin exchange antiferromagnet,Physical Review B, 80(17), 174403 (2009).
P. G. Freeman,M. Enderle,S. M. Hayden,C. D. Frost,Dao-Xin Yao,E. W. Carlson,D. Prabhakaran and A. T. Boothroyd, Inward dispersion of the spin excitation spectrum of stripe-ordered La2NiO4+delta, Physical Review B, 80(14), 144523 (2009).
Jun Zhao,Dao-Xin Yao,Shiliang Li,Tao Hong,Y. Chen,S. Chang,W. Ratcliff,J. W. Lynn,H. A. Mook,G. F. Chen, J. L. Luo,N. L. Wang,E. W. Carlson,Jiangping Hu and Pengcheng Dai, Low Energy Spin Waves and Magnetic Interactions in SrFe(2)As(2), Physical Review Letters, 101(16), 167203 (2008).
Dao-Xin Yao,Y. L. Loh,E. W. Carlson and Michael Ma, XXZ and Ising spins on the triangular kagome lattice, Physical Review B, 78(5), 024428 (2008).
Dao-Xin Yao and E. W. Carlson, Magnetic excitations in the high-T(c) iron pnictides, Physical Review B, 78, 052507 (2008).
Dao-Xin Yao and E. W. Carlson, Incompatibility of modulated checkerboard patterns with the neutron scattering resonance peak in cuprate superconductors, Physical Review B, 77 (2), 024503 (2008).
Y. L. Loh,Dao-Xin Yao and E. W. Carlson, Dimers on the triangular kagome lattice, Physical Review B, 78 (22), 224410 (2008).
Y. L. Loh,Dao-Xin Yao and E. W. Carlson, Thermodynamics of Ising spins on the triangular kagome lattice: Exact analytical method and Monte Carlo simulations, Physical Review B, 77(13), 134402 (2008).
Yongjin Jiang,Dao-Xin Yao,Erica W. Carlson,Han-Dong Chen and JiangPing Hu, Andreev conductance in the d plus id(')-wave superconducting states of graphene, Physical Review B, 77 (23), 235420 (2008).
Dao-Xin Yao and A. W. Sandvik, Universal scaling of the Neel temperature of near-quantum-critical quasi-two-dimensional Heisenberg antiferromagnets, Physical Review B, 75(5), 052411 (2007).
Dao-Xin Yao and E. W. Carlson, Spin-wave dispersion in half-doped La3/2Sr1/2NiO4, Physical Review B, 75(1), 012414 (2007).
Dao-Xin Yao,E. W. Carlson and D. K. Campbell, Magnetic excitations of stripes near a quantum critical point, Physical Review Letters, 97(1), 017003 (2006).
Dao-Xin Yao, E. W. Carlson and D. K. Campbell, Magnetic excitations of stripes and checkerboards in the cuprates, Physical Review B, 73 (22), 224525 (2006).
E. W. Carlson, Dao-Xin Yao and D. K. Campbell, Spin waves in striped phases, Physical Review B, 70(6), 064505 (2004).
Jing-Bo Xu and Dao-Xin Yao, Geometric phases and probabilities for an alkali atom in a strong magnetic field, Physica Scripta, 59(6), 411-415(1999).
Dong Yan,Yijie Zeng,Yishi Lin,Lingyong Zeng,Junjie YinYuan He,Mebrouka Boubeche,Meng Wang,Yihua Wang,Dao-Xin Yao,Huixia Luo, Charge density wave and superconductivity in the family of telluride chalcogenides Zn1-xCuxIr2-yN(N = Al, Ti, Rh)yTe4, arXiv:2003.11463.
Sibin Yang,Dao-Xin Yao,Anders W.Sandvik, Deconfined quantum criticality in spin-1/2 chains with long-range interactions, arXiv:2001.02821.
Meizhuang Liu,Changwei Wu,Zizhao Liu,Dao-Xin Yao,Dingyong Zhong, Multimorphism and gap opening of charge-density-wave phases in monolayer VTe2, arXiv:1912.01336.
Chengkang Zhou,Luyang Wang,Dao-Xin Yao, Klein tunneling of Weyl magnons, arXiv:1909.04109.
Dong Yan,Yijie Zeng,Guohua Wang,Yiyuan Liu,Junjie Yin,Tay-Rong Chang,Hsin Lin,Meng Wang,Jie Ma,Shuang Jia, Dao-Xin Yao,Huixia Luo, CuIr2Te4: A Quasi-Two-Dimensional Ternary Telluride Chalcogenide Superconductor, arXiv:1908.05438.
Yan-Wei Dai,Xi-Hao Chen,Sam Young Cho,Huan-Qiang Zhou,Dao-Xin Yao, Universal scaling relationship between classical and quantum correlations in critical quantum spin chains, arXiv:1805.03464.
Wen-Chao Huang,Qi-Feng Liang,Dao-Xin Yao,Zhi Wang, Proposal for a flux qubit in a dc SQUID with the 4π period Josephson effect, arXiv:1501.03315.
Zequan Wang, Chen Ning Yang Scholarship (2023)
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