I am Jing Wang from Changfeng, Anhui Province. In July 2014, I earned my Ph.D. from the University of Science and Technology of China (USTC). 

Since May 2017, I have been an associate professor in the Department of Physics at Tianjin University.

My research primarily focuses on theoretical condensed matter physics, with an emphasis on quantum phase transitions, 

quantum critical behaviors, and competing orders in strongly correlated electronic systems, such as unconventional superconductors. 

Recently, I have also developed an interest in quadratic-band touching systems and anisotropic semimetals.

• I: Unconventional superconductors, high-temperature superconductors; iron-based superconductors and heavy-fermion superconductors
•  II: Quantum phase transitions and quantum critical behaviors in some strongly correlated electronic systems
•  III: Non-Fermi liquid phenomena in  various types of semimetals

• 一、
• 1.国家自然科学青年科学基金项目 “122类铁基超导体中的序竞争和临界现象”编号为11504360，23万元，执行年限为 2016年1月至 2018年12月，负责人（已结题）。
• 2.中国博士后科学基金第56批面上资助（一等） “高温超导中序竞争的重整化群研究”编号为2014M560510，8万元，执行年限为 2014年9月至 2017年05月， 负责人（已结题）。
• 3.中国博士后科学基金第8批特别资助“BaFe2(As1-xPx)2等铁基超导体中的序竞争和相图”编号为2015T80655，15万元，执行年限为 2015年7月至 2017年05月， 负责人（已结题）。
• 4.中国科学技术大学青年创新基金（一等）,“铁基超导体中SDW量子相变的重整化群研究”编号为WK2030040074，15万元，执行年限为 2015年1月至 2016年12月，负责人 （已结题）。
• 二、
• *Reports on Progress in Physics 审稿人
• *New Journal of Physics 审稿人
• *Quantum Science and Technology审稿人
• *Europhysics Letters 审稿人
• *Journal of Physics: Condensed Matter 审稿人
• *Nanotechnology 审稿人
• *Physica Scripta 审稿人
• *Chinese Physics B 审稿人
• *Journal of Physics A: Mathematical and Theoretical 审稿人
• 三、
• 天津大学2021年度“沈志康奖教金（教学科研类）”（2021年）
• 天津大学2019年青年教师讲课大赛二等奖 (2019年)
• 中国科学院院长奖优秀奖 (2014年)
• 博士研究生国家奖学金 (2013年)
• 中国科学院2012年度中欧联合培养博士生项目奖学金 (2012年)

• 31. Qi-Qi Yue, Yi-Sheng Fu, and Jing Wang, Fixed points and critical temperature near quantum critical points in d-wave cuprate superconductors, arXiv: 2503.20347 (2025).
• 30. Wen Liu, Wen-Hao Bian, Xiao-Zhuo Chu, and Jing Wang* (Corresponding Author), Low-energy critical behavior in two-dimensional tilted semi-Dirac semimetals driven by fermion-fermion interactions, arXiv: 2409.07126; Eur. Phys. J. Plus 140, 245 (2025).
• 29. Qiao-Chu Zhang and Jing Wang* (Corresponding Author), Fermion-fermion interaction driven phase transitions in rhombohedral trilayer graphene, arXiv: 2406.01877 ; Phys. Rev. B 111, 014111 (2025). .
• 28. Wen-Hao Bian and Jing Wang* (Corresponding Author), Critical behavior around the fixed points driven by fermion-fermion interactions and disorders in the nodal-line superconductors, arXiv: 2402.02040, Eur. Phys. J. Plus 139, 586 (2024) .
• 27. Jing Wang* (Corresponding Author)，Jie-Qiong Li, Wen-Hao Bian, Qiao-Chu Zhang, and Xiao-Yue Ren, Critical fates induced by interaction competition in the three-dimensional tilted Dirac semimetals, arXiv: 2307.13436 (2023).
• 26. Yi-Sheng Fu and Jing Wang* (Corresponding Author) , Favorable phase transitions induced by spinful electron-electron interactions in two-dimensional semimetal with a quadratic band crossing point, arXiv: 2305.00648, Annals of Physics 470, 169811 (2024).
• 25. Jing Wang* (Co-Corresponding Author) and Ipsita Mandal (Co-Corresponding Author) , Anatomy of plasmons in generic Luttinger semimetals, arXiv: 2303.10163, Eur. Phys. J. B 96, 132 (2023).
• 24. Wen-Hao Bian, Xiao-Zhuo Chu, and Jing Wang* (Corresponding Author), Effects of the interplay between fermionic interactions and disorders in the nodal-line superconductors, arXiv: 2212.02356 (2022) , Eur. Phys. J. Plus 138, 607 (2023).
• 23. Xiao-Yue Ren, Ya-Hui Zhai, and Jing Wang* (Corresponding Author), Quantum criticality of fermion velocities and critical temperature nearby a putative quantum phase transition in the $d$-wave superconductors, arXiv: 2109.09321 (2021)， Nuclear Physics B 975,115651 (2022).
• 22. Ya-Hui Zhai and Jing Wang* (Corresponding Author), Fermion-fermion interaction driven instability and criticality of quadratic band crossing systems on the kagome lattices, arXiv: 2010.10963v1；Nuclear Physics B 966,115371 (2021).
• 21. Jing Wang, Incommensurate magnetic states induced by ordering competition in Ba1−xNaxFe2As2, arXiv: 2007.14981v1 (2020), Supercond. Sci. Technol. 35, 125006 (2022) .
• 20. Jing Wang, Topological superconducting transition driven by time-reversal-symmetry breaking, arXiv: 2103.07049; Nuclear Physics B 961,115230 (2020).
• 19. Yao-Ming Dong, Ya-Hui Zhai, Dong-Xing Zheng, and Jing Wang* (Corresponding Author), Stability of two-dimensional asymmetric materials with a quadratic band crossing point under four-fermion interaction and impurity scattering, arXiv: 2003.06776 ; Phys. Rev. B 102, 134204 (2020).
• 18. Ya-Hui Zhai and Jing Wang* (Corresponding Author), Effects of fermion-fermion interactions and impurity scatterings on fermionic velocities in the line-nodal superconductors, arXiv: ......; Eur. Phys. J. B 93, 86 (2020).
• 17. Jie-Qiong Li, Dong-Xing Zheng, and Jing Wang* (Corresponding Author), Singular low-energy states of tilted Dirac semimetals induced by the fermion-fermion interactions, arXiv: 1907.13341; Eur. Phys. J. B 92, 274 (2019).
• 16. Jing Wang, Instability caused by the fermion-fermion interactions combined with rotational and particle-hole asymmetries in three-dimensional materials with quadratic band touching, arXiv: 1906.01412, Eur. Phys. J. B 92, 102 (2019).
• 15. Yao-Ming Dong, Dong-Xing Zheng, and Jing Wang* (Corresponding Author), Cooper instability generated by attractive fermion-fermion interaction in the two-dimensional semi-Dirac semimetals, arXiv: 1806.03410; J. Phys.: Condens. Matter 31, 275601 (2019).
• 14. Jing Wang, Role of four-fermion interaction and impurity in the states of two-dimensional semi-Dirac materials, arXiv: 1803.05079; J. Phys.: Condens. Matter 30, 125401 (2018) .
• 13. Jing Wang, Carmine Ortix, J. van den Brink, and D. V. Efremov, Fate of interaction-driven topological insulators under disorder, arXiv: :1710.09632v1; Phys. Rev. B 96, 201104(R) (2017) (Rapid Communication).
• 12. Jing Wang, Guo-Zhu Liu, D. V. Efremov, and J. van den Brink, Order parameter fluctuation and ordering competition in the Ba1−xKxFe2As2, arXiv:1608.07935, Phys. Rev. B 95，024511 (2017).
• 11.Jing Wang, Peng-Lu Zhao, Jing-Rong Wang, and Guo-Zhu Liu, Superconductivity in two-dimensional disordered Dirac semimetals, arXiv: 1604.01548, Phys. Rev. B 95，054507 (2017).
• 10. Jing Wang and Guo-Zhu Liu, Impact of ordering competition on the global phase diagram of iron pnictides, arXiv: 1511.06517, Phys. Rev. B 92, 184510 (2015).
• 9. Jing Wang, Two-loop disorder effects on the nematic quantum criticality in d-wave superconductors, arXiv: 1505.06533, Phys. Lett. A 379 , 1917 (2015) .
• 8. Jing Wang and Guo-Zhu Liu, Renormalization group analysis of the competition between distinct order parameters, arXiv: 1412.6252, Phys. Rev. D 90, 125015 (2014).
• 7. Jing Wang, Andreas Eberlein, and Walter Metzner, Competing order in correlated electron systems made simple: Consistent fusion of functional renormalization and mean-field theory, arXiv: 1312.0870, Phys. Rev. B 89, 121116(R) (2014) (Rapid Communication).
• 6. Jing Wang and Guo-Zhu Liu, Competition between nematic and superconducting orders in high-temperature superconductors, arXiv: 1205.6164, New J. Phys. 15, 073039 (2013).
• 5. Jing Wang, Velocity renormalization of nodal quasiparticles in d-wave superconductors, arXiv: 1302. 6137, Phys. Rev. B 87, 054511 (2013).
• 4. Jing Wang and Guo-Zhu Liu, Unconventional behavior of Dirac fermions in two-dimensional gauge theory, arXiv: 1202. 3109, Phys. Rev. D 85, 105010 (2012).
• 3. Jing Wang, Guo-Zhu Liu, and Hagen Kleinert, Disorder effects at a nematic quantum critical point in d-wave cuprate superconductor, arXiv: 1101. 1551, Phys. Rev. B 83, 214503 (2011).
• 2. Jing Wang, Jing-Rong Wang, Wei Li, and Guo-Zhu Liu, Confinement induced by fermion damping in three-dimensional QED, arXiv: 1008.0736, Phys. Rev. D 82, 067701 (2010).
• 1. Guo-Zhu Liu, Jing-Rong Wang and Jing Wang, Suppression of superconductivity at nematic critical point in underdoped cuprates, arXiv: 1111.1686, Phys. Rev. B 85, 174525 (2012)