王景
- 教师名称:王景
- 教师拼音名称:Jing Wang
- 出生日期:1986-03-15
- 性别:男
- 学科:theoretically condensed matter physics
- 职称:副教授
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基本信息
研究方向
获奖情况
论文成果
- 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 transiti...
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- 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
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- 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)
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- 32. Wen-Hao Bian and Jing Wang* (Corresponding Author), Tunable phase transitions from semimetals to Chern insulators in two-dimensional quadratic-band-crossing materials, arXiv: 2506.19378 (2025).
- 31. Qi-Qi Yue, Yi-Sheng Fu, and Jing Wang* (Corresponding Author), 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)
教育经历
- 2012.12-2013.11 Max-Planck-Institute for Solid State Research Theoretical Physics Joint PhD Student
- 2008.9-2014.6 University of Science and Technology of China Theoretical Physics PhD
- 2004.9-2008.6 Sichuan Normal University Physics B.S.
工作经历
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2016.3 -2017.2
|The Leibniz Institute for Solid State and Materials Research, Dresden, Germany|Visiting Scholar
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2014.5 -2017.5
|Department of Modern Physics and National Synchrotron Radiation Laboratory|University of Science and Technology of China|Postdoc