王青 教授
清华大学物理系
理科楼A218
北京 100084
电话:010-62772791
传真:010-62781604
wangq@mail.tsinghua.edu.cn
个人网页:
个人简历 |
教育: 北京大学物理系本科毕业(1982年) 北京大学物理系理论物理学硕士学位(1985年) 清华大学物理系理论物理学博士学位(1989年) 工作经历: 清华大学物理系讲师(1989-1991),副教授(1992-1996),教授(1997-现在),博导(1998-现在)长聘教授(2018-现在) 曾任清华大学物理系理论物理教研组副主任(1992-1996)、主任(1996-1998),高能物理核物理研究所所长(1999), 系党委副书记(2000),系主任(2000-2003),系党委书记(2003-2012),物理系粒子物理核物理天体物理研究所所长(2013-现在)。 日本名古屋大学物理系客座研究员(1994.9-1995.10) 美国密执根州立大学访问学者(1999.10-2000.1) |
教学 |
主讲物理系本科基础课《电动力学》(90秋、91春、92春、93春、94春、96春、97春、98春、99春、00春、01春、02春、03秋、05春、06春、07春、07秋、09春、10春、11春、13秋、14秋、15秋、17秋、18秋、19春、19秋、20春、21春、22春),辅导(89秋);主讲物理系本科基础课《理论力学》(95秋);与别人合讲物理系本科专业课《粒子物理核物理》(01春);主讲物理系理论物理研究生专业课《量子场论选题》(97秋、99秋、00春、01秋、02秋、03秋);主讲物理系研究生和本科生高年级的《量子场论》课(03秋、04秋、05秋、06秋、07秋、08秋、09秋、10秋、11秋、12秋、17秋、18秋、19秋、20秋、21秋);与人合讲研究生专业课《粒子理论专题》(08秋、09秋、11秋、13秋);主讲物理系本科《费曼物理学II》(09春、13春、14春、15春、16春、17春、18春、19春、20春、21春、22春)。 北京市教学名师;国家精品在线开放课程《电动力学》负责人 |
研究领域 |
从事量子场论和基本粒子理论研究,,主要集中于非微扰理论、对称性自发破缺、强子物理和超出标准模型的新物理。 目前主要研究 1.有效场论 量子色动力学介子(赝标、矢量、标量、轴矢)低能有效拉氏量 量子色动力学重子低能有效拉氏量 量子色动力学介子低能有效拉氏量与重夸克有效场论的结合 电弱手征有效拉氏量(无费米子,有费米子,有轻Higgs,含新的规范粒子) 2.暗物质 暗物质的各种可能理论模型 暗物质实验探测中的相关理论问题 3.场论模型的精确解和路径积分的非微扰计算 对称性自发破缺的场论实现与计算 2维量子场理论模型及相互关系 费米子行列式计算 玻色子行列式计算 n维时空的量子电动力学 |
奖励、荣誉和学术兼职 |
现任学术兼职 高能物理学会常务理事 教育部大学物理教学指导委员会主任 《物理与工程》杂志主编 中法粒子物理实验室指导委员会委员 中科院理论物理所战略发展委员会委员 教育部义务教育课程标准修订专家组成员 物理学会学术交流委员会委员
锦屏地下实验室的中国暗物质实验(CDEX)合作组理论负责人 |
科研论文:
1. Qing-Sen Chen, Hui-Feng Fu, Yong-Liang Ma, Qing Wang “Chiral effective Lagrangian for excited heavy-light mesons from QCD” Commun.Theor.Phys. 73 (2021) 6, 065202
2. Yi-Da Li, Qing Wang “Beyond symmetries: Anomalies in transverse Ward-Takahashi identities”Phys. Rev. D102,056008(2020)
3. Qing-Sen Chen, Hui-Feng Fu, Yong-Liang Ma, Qing Wang “Chiral effective Lagrangian for heavy-light mesons from QCD” Phys. Rev. D102,034034(2020)
4. Z.She, L.P.Jia, Q.Yue,...Qing Wang...CDEX Collaboration,”Direct Detection Constraints on Dark Photons with the CDEX-10 Experiment at the China Jinping Underground Laboratory” PRL 124, 111301(2020)
5.Xin Chen,Yue Xu,Yongcheng Wu,Yu-Ping Kuang, Qing Wang,Hang Chen,Shih-Chieh Hsu, Zhen Hu,Congqiao Li,“Search for a generic heavy Higgs at the LHC” Phys. Lett. B804, 135358 (2020)
6. Z.Z.Liu, Q.Yue, L.T.Yang...Qing Wang...CDEX Collaboration, “Constraints on Spin-Independent Nucleus Scattering with sub-GeV Weakly Interacting Massive Particle Dark Matter from the CDEX-1B Experiment at the China Jinping Underground Laboratory” PRL 123, 161301(2019)
7. JingLu Ma, Qian Yue, ShinTed Lin, Henry Tsz-King Wong, JinWei Hu, LiPing Jia,Hao Jiang, Jin Li, ShuKui Liu, ZhongZhi Liu, Hao Ma, WeiYou Tang, Yang Tian, Li Wang, Qing Wang, Yi Wang, LiTao Yang, Zhi Zeng, “Study on cosmogenic activation in germanium detectors for future tonne-scale CDEX experiment”, SCIENCE CHINA Physics, Mechanics & Astronomy, 62, 011011 (2019)
8. H.Jiang,L.P.Jia, Q.Yue..Qing Wang...CDEX Collaboration, “Limits on light weakly interacting massive particles from the first 102.8kgday data of the CDEX-10 experiment” PRL 120, 241301(2018)
9. Hui-Feng Fu, Qing Wang, Libo Jiang,”Derivation of the gap and Bethe-Salpeter equations at large Nc limit and symmetry preserving truncations” Phys. Rev. D96,094023(2017)
10. K.Ren, H.F.Fu, Q.Wang, “Derivation of the effective chiral Lagrangian for pseudoscalar, scalar,vector, and axial-vector mesons from QCD” Phys. Rev. D95,074012(2017)
11. S.K.Liu, Q.Yue, …Q.Wang…(CDEX Collaboration)”Constraints on Axion couplings from the CDEX-1 experiment at the China Jinping Underground Laboratory”Phys. Rev. D95,052006(2017)
12. Wang Li,Yue Qian,…Wang Qing…(CDEX collaboration)”First results on 76Ge neutrinoless double beta decay from CDEX-1 experiment” SCi. China-Phys. Mech. Astron. 60, 071011(2017)
13. L.T. Yang, H.B. Li,L.P. Ji, H. Jiang, J. Li, F.K. Lin, S.T. Lin, S.K. Liu, J.L. Ma, V. Sharma, L. Singh, M.K. Singh, A.K. Soma, S.W. Yang, L. Wang, Q. Wang, H.T. Wong, Q. Yue, W. Zhao,“Bulk and Surface Event Identication in p-type Germanium Detectors”arXiv:1611.03357v1[physics.ins-det]
14. Chao-Qiang Geng, Da Huang, Chun-Hao Lee, and Qing Wang,”Direct Detecton of Exothermic Dark Matter with Light Mediator” JCAP08,009(2016)
15. W.Zhao,Q.Yue,…Q.Wang…(CDEX Collaboration), “Search of low-mass WIMPs with a p-type point contact germanium detector in the CDEX-1 experiment” Phys.Rev. D93, 092003(2016)
16. Hui-Feng Fu and Qing Wang, “The Quark Propagator in a Truncation Scheme Beyond the Rainbow Approximation” Phys.Rev. D93, 014013(2016), arXiv:1511.01587v1 [hep-ph]
17.Chao-Qiang Geng, Da Huang, Lu-Hsing Tsai and Qing Wang,“Connecting Neutrino Masses and Dark Matter by High-dimensional Lepton Number Violation Operator” JHEP08(2015)141, arXiv: 1507.03455
18. Shao-Zhou Jiang,Zhen-Long Wei,Qing-Sen Chen, Qing Wang, “Computation of the O(p6) order low-energy constants: an update”Phys. Rev. D92, 025014(2015)
19. Nan Chen, Qing Wang, Wei Zhao, Shin-Ted Lin, Qian Yue, Jin Li, “Exothermic isospin-violating dark matter after SuperCDMS and CDEX”Phys. Lett. B743, 205 (2015)
20. SU Jian,ZENG Zhi,…WANG Qing,….“Study of the material photon and electron background and the liquid argon detector veto efficiency of the CDEX-10 experiment” arXiv:1402.4591[physics.ins-det]
21. Q.Yue, W.Zhao,…,Qing Wang,…(CDEX Collaboration) “Limits on light weakly interacting massive particles from the CDEX-1 experiment with a p-type point-contact germanium detector at the China Jinping Underground Laboratory” Phys. Rev. D90, 091701(R)(2014)
22. S.K.Liu,Q.Yue,…. Qing Wang,…(CDEX Collaboration) “Limits on light WIMPs with a germanium detector at 177 eVee threshold at the China Jinping Underground Laboratory” Phys. Rev. D90, 032003(2014)
23. Nan Chen, Ying Zhang, Qing Wang, Giacomo Cacciapaglia, Aldo Deandrea, Luca Panizzi, “Higgsphobic and fermiophobic Z' as a single dark matter candidate” JHEP1405,088(2014)
24. Shao-Zhou Jiang, Feng-Jun Ge, Qing Wang, “The p6 order full pseudoscalar mesonic chiral Lagrangian under the U group” Phys. Rev. D89, 074048(2014)
25. Ying Zhang, Qing Wang,“Survival of New Physics: An Anomaly-free Neutral Gauge Boson at the LHC” Inter J of Mod Phys A29, no8,1450046(2014)
26. Shao-Zhou Jiang and Qing Wang,“The high order chiral Lagrangian”,Seventh International symposium on chiral Symmetry in Hadron and Nuclei, Beijing, China, 27-30 October 2013. Proceedings of the Seventh International Symposium, p70, Editors of Li-Sheng Geng, Jie Meng, Qiang Zhao , Bing-Song Zou. Published by World Scientific Publishing Co. Pte. Ltd. 5 Toh Tuck Link, Singapore 596224.
27. Qing Wang“The road of gaining mass for gauge boson: interpretation of Nobel Prize in physics 2013” Chin. Sci. Bull,(2014)59(15):1784
28. Shao-Zhou Jiang, Feng-Jun Ge, Qing Wang, “The p6 order full pseudoscalar mesonic chiral Lagrangian under the U group” Phys. Rev. D89, 074048(2014)
29. Chuan Li, Shao-Zhou Jiang, Qing Wang, “Minimal Ward-Takahashi Vertices and Pion Light Cone Distribution Amplitudes from Gauge Invariant, Nonlocal, Dynamical Quark Model” Chinese Physics Letters, 2013年,30卷,第8期,081101页
30. Wei Zhao, Qian Yue, …Qing Wang,…(CDEX Collaboration) “First result on low-mass WIMs from the CDEX-1 experiment at the China Jinping underground laboratory”Phys. Rev. D88, 052004(2013)
31. Ke-Jun KANG, Jian-Ping CHENG, Jin LI, Yuan-Jing LI, Qian YUE, et.al. (CDEX Collaboration) Corresponding author:Xue-Qian Li, Qing WANG.“Introduction of the CDEX experiment”,Frontiers of Physics 8,412(2013)
32. Chuan Li and Qing Wang,“Amending the Vafa-Witten Theorem” Phys.Lett.B721,141(2013)
33. ShaoZhou Jiang, Ying Zhang, Qing Wang “Computation of the p6 order low-energy constants with tensor sources” Phys. Rev. D87, 094014(2013)
34. Ying Zhang, Shao-Zhou Jiang, Qing.Wang“The Global Electroweak Fit and its Implication to Z’”Commun. Theor. Phys.61,729(2014)
35.JIA Duo-Jie, ZHANG Jin-Hu, WANG Qing “A note on the soliton picture in a Skyrme-like model”CPC(HEP&NP),2012,36(9):797
36.Ying Zhang, Qing Wang “Parameterization on the general gamma-Z-Z' Mixings” CPC(HEP&NP),2012,36(4):298
37.Feng-Jun Ge, Shao-Zhou Jiang,Qing Wang,“Electroweak chiral Lagrangian from the topcolor-assisted technicolor model with nontrivial technicolor fermion condensation and walking”,Phys.Rev.D84,015009(2011)
38.Shao-Zhou Jiang, Qing Wang “Computation of the coefficients for $p^6$ order anomalous chiral Lagrangian” Phys.Rev.D81,094037(2010)
39.Shao-Zhou Jiang, Ying Zhang, Chuan Li, Qing Wang “Computation of the p6 order chiral
Lagrangian coefficients” Phys.Rev.D81,014001(2010)
40. WANG Qing, WANG Shun-Zhi, ZHANG Ying “New Gauge Forces Beyond Standard Model” Chinese Physics C (HEP & NP), 34(2), 277(2010)
41.Ying Zhang, Qing Wang “Z' Boson Mixings with Z-gamma and Charge Assignments” JHEP07(2009)012
42.Hong-Hao Zhang, Kai-Xi Feng, Shao-Zhou Jiang, Qing Wang “Derivation of Electroweak Chiral Lagrangian from One Family Technicolor Model” Modern Phys. Lett. A24,693(2009)
43. Jun-Yi Lang, Shao-Zhou Jiang, Qing Wang “Electroweak Chiral Lagrangian for a Hypercharge-universal Topcolor Model” Phys. Lett. B673, 63(2009)
44.Jun-Yi Lang, Shao-Zhou Jiang, Qing Wang “Electroweak Chiral Lagrangian from Natural
Topcolor-assisted Technicolor Model” Phys. Rev. D79,015002(2009)
45. Shun-Zhi Wang, Shao-Zhou Jiang, Feng-Jun Ge, Qing Wang “Electroweak Chiral Lagrangian for W' Boson” JHEP06(2008)107
46. Shun-Zhi Wang, Qing Wang “Electroweak Chiral Lagrangian for Neutral Higgs Boson”
Chin. Phys. Lett. Vol.25, No.6, 1984(2008)
47. Shun-Zhi Wang, Feng-Jun Ge, Qing Wang “Electroweak Chiral Lagrangian for Left-right Symmetric Models:The Matter Sector” Phys. Lett. B662,375(2008)
48.Ying Zhang, Shun-Zhi Wang, Qing Wang “Stueckelberg Mechanism and Chiral Lagrangian for Z' Boson” JHEP03(2008)047
49.Hong-Hao Zhang, Shao-Zhou Jiang, Jun-Yi Lang, Qing Wang “Electroweak chiral Lagrangian from one-doublet and topcolor-assisted technicolor models” Phys. Rev. D77 issue 5, 055003(2008)
50.Lu Qin, Zhang Ying, Wang Qing “Gauge Covariance and Momentum Space Asymptotically Non-logrithmic Total Derivatives” Commun. theor. Phys. 49, 431(2008)
51. Ying Zhang, Qing Wang “Gauge Covariant Fermion Propagator in Presence of Arbitrary External Gauge Field and its Schwinger-Dyson Equation” Chin. Phys. Lett. Vol.25, No.4,1227(2008)
52. Lu Ran, Wang Qing “Equivalence of Different Descriptions for eta Particle in Simplest Little Higgs Model” Chin.Phys.Lett. Vol.24, No.12, 3371(2007)
53.Ying Zhang, Shun-Zhi Wang, Feng-Jun Ge, Qing Wang “Electroweak chiral Lagrangian for left-right symmetric models” Phys. Lett. B653(2007)259
54.Li-Ming Wang, Qing Wang “Quadrilinear singlets and Fierz invariants in Spin\otimes SU(n) space” 中国科技论文在线http://www.paper.edu.cn
55. Li-Ming Wang, Qing Wang “Nonstandard Higgs in Electroweak Chiral Lagrangian”
hep-ph/060514, TUHEP-TH-06152, 中国科技论文在线http://www.paper.edu.cn
56.Hong-Hao Zhang,Yue Cao and Qing Wang “The Effects on S, T, and U from Higher-
Dimensional Fermion Representations” Modern Physics Letters A22,2533(2007)
57. Yong-Liang Ma, Qing Wang and Yue-Liang Wu “Anomalous Action of QCD from the General
Quark Propagator” hep-ph/0602176
58. Qing Wang “On QCD Investigations of Chiral Lagrangian” Int J. Mod. Phys. A20, 1627(2005)
59.Yong-Liang Ma, Qing Wang, Yue-Liang Wu “Hidden Local Symmetry and Chiral Effective Theory for Vector and Axial-vector Mesons” Eur. Phys. J. C39, 201(2005)
60.Yong-Liang Ma, Qing Wang “Anomalous Action in Gauge Invariant, Nonlocal, Dynamical Quark Model” Phys. Lett. B560, 188 (2003)
61. Yong-Hong An, Hua Yang, Qing Wang “Gauge and Lorentz Covariant Quark Propagator in an
Arbitrary Gluon Field” Eur. Phys. J. C29, 65(2003)
62. Hua Yang, Qing Wang, Yu-Ping Kuang and Qin Lu “Calculation of the chiral Lagrangian
coefficients from the underlying theory of QCD: A simple approach” Phys. Rev. D66 014019(2002)
63. Qing Wang, Yu-Ping Kuang, Hua Yang, Qing Lu “On QCD predictions for the chiral Lagrangian coefficients” J. Phys. G28, L55(2002)
64. Hua Yang, Qing Wang, Qin Lu “Chiral Lagrangian from gauge invariant,nonlocal, dynamical quark model” Phys.Lett. B532, 240 (2002)
65.Qin Lu, Hua Yang, Qing Wang “Fermion determinant with dynamical chiral symmetry breaking” Commun. Theor. Phys. 38, 185(2002)
66. Xiao-Bin Fan and Qing Wang “Instanton Effects on Gluon Propagator” Commun. Theor. Phys. 38 ,449(2002)
67. Zhi-Min Wang and Qing Wang “Derivation of Bosonic Part of the Electroweak Chiral
Lagrangian from a General Technicolor Theory” Commun. Theor. Phys. 36 ,417(2001)
68. Yingbin liang and Qing Wang, “Phenomenological theory for neutral kaon system beyond
effective Hamiltonian formulation” J. Phys.G27,243(2001)
69. Xuelei Wang ,Zhi-Min Wang and Qing Wang “Derivation of Effective Chiral Lagrangian for the Whole Nonet Pseudo Scalar Goldstone Boson from QCD” Commun. Theor. Phys. 34 ,683(2000)
70. Xuelei Wang and Qing Wang “Derivation of Effective Chiral Lagrangian Involving PSGB and Vector Bosons from QCD” Commun. Theor. Phys. 34 ,519(2000)
71. 肖明, 王学雷, 王青 “推导赝标Goldstone玻色子有效拉氏量”《高能物理与核物理》24卷5期
(2000)379页
72. 梁颖斌, 王青 “中性K介子系统唯象理论的修正”《高能物理与核物理》 24卷4期(2000)290页
73. Qing Wang, Yu-ping Kuang, Xuelei Wang and Ming Xiao “Derivation of the Effective Chiral Lagrangian for Pseudoscalar Mesons from QCD” Phys. Rev.D61, 54011 (2000)
74.Shu-Quan Nie, Yu-Ping Kuang, Qing Wang and Yu-Ping Yi, “Nonperturbative explanation of the enhancement factors in QCD sum rule for the ρ meson” Phys. Rev. D56 1489(1997)
75.Qing Wang and A. I. Sanda, “Neutral Kaon system re-investigated” Phys. Rev. D55 3131(1997)
76.王青 “有效拉氏量理论” 第五届全国高能物理代表大会(大会特邀综述报告).1998.4,河北,承德.
《高能物理与核物理》99年23卷第2期155页
77.B. Holdom and Qing Wang, “Dynamical Perturbation Theory and the Auxiliary Field Method” Phys. Rev. D55 3101(1997)
78.Pieter Maris and Qing Wang, “Four-body chiral order parameters in the massless-fermion phase” Phys. Rev. D53 4650(1996)
79.Qing Wang, “Neither charge conjugation nor time reversal are spontaneously broken in quantum chromodynamics” Phys. Rev. D52 7315(1995)
80.Qing Wang, Yu-Ping Kuang, Yu-Ping Yi and Tian-Fang Cai, “Calculation of the four quark condensates in the QCD motivated extended Nambu-Jona-Lasino model” Phys. Lett. B336
70(1994)
81.Hong-Jian He, Yu-Ping Kuang, Qing Wang and Yu-Ping Yi, “Effective potential, renormalization, and non trivial ultraviolet fixed point in D-dimensional four-fermion theories (2in 1/N expansion” Phys. Rev. D45, 4610(1992)
82.Hong-Jian He, Qing Wang and Yu-Ping Kuang, “Multi loop calculation of effective action for local composite operators” Z. Phys C45 427(1990)
科普、教学和介绍性文章:
1.王青 “深入理解‘拓展的麦克斯韦方程组’”,物理与工程Vol32,No.2,(2022)1
2.王青 “理解王中林院士‘拓展的麦克斯韦方程组’”,物理与工程Vol32,No.1,(2022)3
3.王青 “课程思政背景下面向未来的课程建设”,物理与工程Vol31,No5,(2021)1
4.王青 “高校课程思政如何引领课程面向未来”,中国教育报2021年8月2日星期一,高教周刊03版
5.王青,忻蓓 “物理学类专业课程思政建设的认识与思考”,中国大学教学2021年第1期,43-45页
6.王青 “从大学物理教育反观中小学提问题能力的培养”,物理教学探讨2021年第1期,Vol.39,1-4页
7.王青 “2020年春季学期清华物理系《费曼物理学II》和《电动力学》授课总结——源自苏格拉底的问题驱动式教育:在互动中共同学习和成长”,物理与工程2020年Vol.30,No.5,3-25页
8.王青,郭应寿 “《费曼物理学II》和《电动力学》混合式线上教学实践” 物理与工程2020年Vol.30,No.3,3-10页
9. 王青 “小班教学与翻转课堂:《费曼物理学II》的10年教学实践——纪念费曼先生百年诞辰”,物理与工程,2018年Vol.28,No.4,20-38页
10. 王青 “理解经典电磁学理论”,物理与工程,2018年Vol.28,No.3,10-22页
11. 陈丽,王青 “电磁学与电动力学中的磁单极-V”,物理与工程,2015年Vol.25,No.6,68-80页
12. 王青 “电磁学与电动力学中的磁单极-IV”,物理与工程,2015年Vol.25,No.5,33-35,40页
13. 王青 “电磁学与电动力学中的磁单极-III”,物理与工程,2015年Vol.25,No.3,19-24页
14. 王青 “电磁学与电动力学中的磁单极-II”,物理与工程,2014年Vol.24,No.6,29-33页
15. 王青 “超导与规范对称性,希格斯机制与希格斯粒子—电磁学与电动力学的超导II”物理与工程,2014年Vol24,No.4,3-10页
16. 王青 “2013年诺贝尔物理学奖介绍:规范粒子质量的起源”物理与工程,2014年Vol24,No.1,3-8页
17. 王青 “规范粒子获得质量之路:解读2013年诺贝尔物理奖”,科学通报,2013年第58卷第34期3483-3484页.
18. 王青 “电磁学与电动力学中的磁单极-I”,物理与工程,2013年Vol.23,No.6,8-11页
19. 王青 “电磁学与电动力学中的超导”,物理与工程,2013年Vol23,No.5,1-9页
20. 王青 “清华大学物理系的粒子物理研究”,中国科学,2011年41卷第4期,512-514页
21. 王青 “再论质量的起源”,物理,38卷(2009年)10期,699-706页
22. 朱邦芬,王青 “实践叶企孙的教育思想”,物理,38卷(2009年)9期,671-674页
23. 王青 “对称性及其破缺与2008年诺贝尔物理学奖”,物理与工程,2009年Vol19,No.1,2-6页
24. 朱邦芬,王青 “清华物理80年”物理,35卷(2006年)5期,352-358页
译作:
1. 王青 编译自Georgi Dvali. Physics Today,2015,(1):38
“量子黑洞”
物理44卷(2015年)1期,40-41页
2. 王青 编译自Gerald Gabrielse. Physics Today,2013,(12):64
“标准模型的伟大胜利—预言电子磁矩到万亿分之一的精度”
物理42卷(2013年)11期,883页
3. 王青 编译自Paul Grannis,Peter Jenni. Physics Today,2013,(6):38
“强子对撞机实验的演化”
物理42卷(2013年)6期,447-449页
4. 王青 编译自Johanna Miller. Physics Today,2012,(9):12
“探寻和发现—见证希格斯粒子或极类似物”
物理41卷(2012年)9期,603-604页
5. 王青 编译自Steven Weinberg. Physics Today,2011,(8):29
“粒子物理:从卢瑟福到LHC”
物理40卷(2011年)8期,541-43页
