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姓名:王涛
出生日期:1980年6月16日
职称副教授:
本科毕业学校:辽宁师范大学
博士毕业学校:吉林大学
学位:博士
主讲课程:
热力学与统计物理学,书法(三笔字)基础,量子力学补充
主要学习和工作经历:
1999-2003 辽宁师范大学 本科
2003-2006 辽宁师范大学 硕士研究生
2011-2017 吉林大学 博士研究生
2006至今 太阳成集团tyc234cc 教师
研究领域:
原子核结构,量子光力学,量子力学基础问题,学习心理学
研究方向:
在过去五年,在相互作用玻色子模型领域提出了SU3-IBM理论,解释了多种反常现象,指出SU(3)对称性支配各种四极矩形变,是核结构领域的重大新突破。
教科研成果:
1. Chunxiao Zhou and Tao Wang,E(5)-like emerging 
softness in 82Kr,Physical Review C 108, 024309 (2023).
2. Tao Wang , Bing-cheng He , Dong-kang Li and Chun-xiao Zhou, Prolate-oblate asymmetric shape phase transition in the interacting boson model with SU(3) higher-order interactions, Physical Review C 107, 064322 (2023).
3. Tao Wang, B(E2) anomaly cannot be explained with O(6) higher-order interactions, Physical Review C 107, 064303 (2023).
4. Dong-kang Li, Tao Wang and Feng Pan, Shape phase transitions in even-even 176-198Pt: Higher-order interactions in the interacting boson model, Symmetry 14, 2610 (2022).
5. Tao Wang, New γ-soft rotation in the interacting boson model with SU(3) higher-order interactions, Chinese Physics C 46, 074101 (2022).
6. Tao Wang, A collective description of the unusually low ratio , EPL 129, 52001 (2020).
7. Tao Wang, Gang Li and Xuemei Su, Amplifying single-photon nonlinearity using thermal light, EPL 128, 54001 (2019).
8. Tao Wang, Gang Li, Chang-bao Fu, Rui Zhang, Xue-mei Su and Qian-qian Bao, Classicality in imaginary weak amplification, J. Kore. Phys. Society, 71, 871 (2017).
9. T Wang, T Wang, C B Fu and X M Su, Using reservoir engineering to convert a coherent signal in optomechanics with small optomechanical cooperativity, Physics Letters A 381, 1629 (2017).
10. R Zhang, T Wang, Z C Zhuo, H F Zhang and X M Su, Two narrow dark polaritons in triple-well microcavity based on double tunneling induced transparency, Opt Quant Electron 49, 205 (2017).
11. 王涛,苏雪梅, 基于量子阱子带间跃迁的腔致相干效应的双色全光开关,国家发明专利,ZL201410155065.3 (2016).
12. 苏雪梅,王涛,张锐,李翠莉,卓仲畅, 基于量子阱子带跃迁的隧穿诱导透明效应的时延器件,国家发明专利,ZL2014101555328.0 (2016).
13. T Wang, R Zhang and X M Su, 2016 Room-Temperature Steady-State Entanglement in a Four-Mode Optomechanical System, Commun. Theor. Phys. 65, 596 (2016).
14. G Li, T Wang, M Y Ye and H S Song, Weak measurement combined with quantum delayed-choice experiment and implementation in optomechanical system, Eur. Phys. J. D 69, 266 (2015).
15. 王涛,于海, 教育心理学的学习对于基础物理新课程改革的意义, 太阳成集团tyc234cc学报, 04, 109 (2014)。
16. G Li, T Wang and H S Song, Amplification effects in optomechanics via weak measurement,Phys. Rev. A 90, 013827 (2014)。
17. T Wang, R Zhang, C X Zhou and X M Su, Intracavity tunneling induced transparency in ultrastrong coupling regime,Optics and Photonics Journal, 3, 293 (2013)。
18. L Li, Y A Luo, T Wang, F Pan and J P Draayer, Triaxiality in the SD-Pair Shell Model, J. Phys. G, 36, 125107 (2009).
19. F Pan,T Wang,Y S Huo and J P Draayer,Quantum phase transitions in the consistent-Q Hamiltonian of the interacting boson model, 35, 1263 (2008).
20. Y A Luo, F Pan, T Wang, P Z Ning and J P Draayer, Vibration-rotation transitional patterns in the SD-pair shell model, Phys. Rev. C 73, 044323 (2006).
21. F Pan, T Wang and Y S Huo, Quantum Phase Transitional Behavior in the Extended Casten Triangle of the Interacting Boson Model, Int. J. Mod. Phys. E, 15, 81723 (2006).
