清华大学物理系博士生导师简介：周树云

　　考博考生生准备要参加博士研究生考试时，必须要先确定准备攻读博士的相关专业，然后选择该专业有招生需求的学校，接下来应该联系博士生导师，只有当博士生导师同意考生报考，考博生才可以报考。所以提前了解博士生导师的学术文章及联系方式很重要，新东方在线特整理了各招收博士院校博导的简介及联系方式供考博生参考。

　　周树云

　　副教授

　　清华大学物理系

　　理科楼C-411

　　北京 100084

　　电话：010-62797928

　　传真：010-62781604

　　szhouTHU@gmail.com

　　个人网页：http://info.phys.tsinghua.edu.cn/zhou/

　　个人简历

　　学历 1998-2002 清华大学物理系本科

　　2002-2007 美国加州大学伯克利分校物理系博士

　　工作经历

　　2008/01-2008/07 美国劳伦兹伯克利国家实验室材料科学部博士后

　　2008/07-2011/04 美国劳伦兹伯克利国家实验室先进光源博士后研究员

　　2011/05-2012/04 美国劳伦兹伯克利国家实验室材料科学部项目科学家

　　2012/04-今 清华大学物理系副教授

　　教学

　　研究领域

　　我们的研究方向是通过测量量子材料处于平衡态(静态)和非平衡态(动态)的电子结构，直接获得电子能量、动量、自旋以及时间等多维信息，以探索与材料特性直接相关的物理机制。

　　主要的实验技术包括:

　　(1)角分辨光电子谱(ARPES) 。

　　(2)共振射线X散射(RXS)和超快时间分辨的共振X射线散射(tr-RXS)

　　(3)其它基于同步辐射光源的技术，如X射线吸收谱(XAS)、光发射电子显微镜(PEEM)、非弹性X射线散射(IXS)

　　(4)基于激光光源的具有超高能量分辨率的角分辨光电子谱、超快时间分辨的角分辨光电子谱和超快时间分辨的光学和输运测量等)

　　我们感兴趣的材料包括：

　　(1)强关联体系，如高温超导体、庞磁阻锰氧化物、铁电体、磁性材料、多铁材料、电荷密度波、拓扑绝缘体等

　　(2) 低维量子材料，如石墨烯、薄膜和纳米材料

　　本小组拟招收1-2名研究生，感兴趣的同学请email (szhouTHU@gmail.com)联系。

　　奖励、荣誉和学术兼职

　　奖励 1.2006-2007 Advanced Light Source doctoral fellowship

　　2.2007 国家优秀自费留学生奖学金

　　3.2008-2011 Advanced Light Source postdoc fellowship

　　4.2012 1000 Young Scholar(中组部青年千人计划)

　　主要论著

　　Including 5 papers in Nature and Nature sub-journals; 6 papers in Phys. Rev. Lett. and 2 book chapters. Total number of times cited: >1600

　　Research articles:

　　Manganites

　　1. S.Y. Zhou*, Y. Zhu, M.C. Langner, Y.-D. Chuang*, P. Yu, W.L. Yang, A.G. Cruz Gonzalez, M. Rini, N. Tahir, Y.-H. Chu, R. Ramesh, D.-H. Lee, Y. Tomioka, Y. Tokura, Z. Hussain and R.W. Schoenlein*, “Ferromagnetic Enhancement of CE-type Spin Ordering in (Pr, Ca)MnO3”, Phys. Rev. Lett. 101, 186404 (2011).

　　2. C. Jozwiak, J. Graf, S.Y. Zhou, A. Bostwick, E. Rotenberg, H. Zheng, J.F. Mitchell and A. Lanzara, “Bilayer splitting and c-axis coupling in bilayer manganites showing colossal magnetoresistance”, Phys. Rev. B 80, 235111 (2009)

　　Graphene and Graphite

　　3. D’Astuto, M. Calandra, N. Bendiab, G. Loupias, F. Mauri, S.Y. Zhou, J. Graf, A. Lanzara, N. Emery, C. Herold, P. Lagrange, D. Petitgrand, M. Hoesch, “Phonon dispersion and low energy anomaly in CaC6”, Phys. Rev. B 81, 104519 (2010)

　　4. D.A. Siegel, S.Y. Zhou, F. El Gabaly, A.K. Schmid, K.F. McCarty and A. Lanzara, “Three-fold diffraction symmetry in epitaxial graphene and the SiC substrate”, Phys. Rev. B80, 241407 (2009).

　　5. S.Y. Zhou, C.O. Girit, A. Scholl, C.J. Jozwiak, D.A. Siegel, P. Yu, J.T. Robinson, F. Wang, A. Zettl and A. Lanzara, “Instability of two-dimensional graphene: Breaking sp2 bonds with soft xrays”, Phys. Rev. B 80, 121409 (2009).

　　6. H. Choi, F. Borondics, D.A. Siegel, S.Y. Zhou, M.C. Martin, A. Lanzara and R.A. Kaindl, “Broadband electromagnetic response and ultrafast dynamics of few-layer epitaxial graphene”, Appl. Phys. Lett. 94, 172102 (2009)

　　7. D.A. Siegel, S.Y. Zhou, F. El Gabaly, A.V. Fedorov, A.K. Schmid and A. Lanzara, “Self-doping effects in epitaxially grown graphene”, Appl. Phys. Lett. 93, 243119 (2008).

　　8. S.Y. Zhou, D.A. Siegel, A.V. Fedorov and A. Lanzara, “Kohn anomaly and interplay of electron-electron and electron-phonon interactions in epitaxial graphene”, Phys. Rev. B 78, 193404 (2008).

　　9. S.Y. Zhou, D.A. Siegel, A.V. Fedorov and A.Lanzara, “Metal to insulator transition in epitaxial graphene induced by molecular doping”, Phys. Rev. Lett. 101, 086402 (2008).

　　10. S.Y. Zhou, D.A. Siegel, A.V. Fedorov and A. Lanzara, “Origin of the energy bandgap in epitaxial graphene - reply”, Nature Mater. 7, 259 (2008).

　　11. S.Y. Zhou, D.A. Siegel, A. V. Fedorov and A. lanzara, “Departure from the conical dispersion in epitaxial grapene”, Physica E 40, 2642 (2007).

　　12. S.Y. Zhou, G.-H. Gweon, A.V. Fedorov, P.N. First, W.A. de Heer, D.-H. Lee, F. Guinea, A.H. Castro Neto and A. Lanzara, “Substrate induced band gap opening in epitaxial graphene”, Nature Mater. 6, 770 (2007).

　　(This paper was selected by Thomson Reuters “Essential Science Indicators” as Fast Breaking Paper in the field of Materials Science in 2008 August)

　　13. S.Y. Zhou, G.-H. Gweon, J. Graf, A.V. Fedorov, C.D. Spataru, R.D. Diehl, Y.Kopelevich, D.-H. Lee, S.G. Louie, A. Lanzara, “First direct observation of Dirac fermions in graphite”, Nature Phys. 2, 595 (2006).

　　14. S.Y. Zhou, G.-H. Gweon and A. Lanzara, “Low energy excitations in graphite: the role of dimensionality and lattice defects”, Ann. Phys. 321, 1730 (2006).

　　15. E. Rollings, G.-H. Gweon, S.Y. Zhou, B.S. Mun, J.L. McChesney, B.S. Hussain, A.V. Fedorov and A. Lanzara, “Synthesis and characterization of atomically-thin graphite films on a silicon carbide substrate”, J. Phys. Chem. Solids 67, 2172 (2006).

　　16. S.Y. Zhou, G.-H. Gweon, C.D. Spataru, J. Graf, D.-H. Lee, S.G. Louie and A. Lanzara, “Coexistence of sharp quasiparticle dispersions and disorder features in graphite”, Phys. Rev. B 71, 161403(R) (2005).

　　High Temperature Superconductors

　　17. J. Graf, G.-H. Gweon, K. McElroy, S.Y. Zhou, C. Jozwiak, E. Rotenberg, A. Bill, T. Sasagawa, H. Eisaki, S. Uchida, H. Takagi, D.-H. Lee and A. Lanzara, “A universal high energy anomaly in angle resolved photoemission spectra of high temperature superconductors – possible evidence of spinon and holon branches”, Phys. Rev. Lett. 98, 067004 (2007)

　　18. G.-H. Gweon, S.Y. Zhou, M.C. Watson, T. Sasagawa, H. Takagi and A.Lanzara, “Strong and complex electron-lattice correlation in optimally doped Bi2Sr2CaCu2O8+d”,Phys. Rev. Lett. 97, 227001 (2006).

　　19. K. McElroy, G.-H. Gweon, S.Y. Zhou, J. Graf, S.I. Uchida, H. Eisaki, H. Takagi, T. Sasagawa, D.-H. Lee and A. Lanzara, “Elastic scattering susceptibility of the high temperature superconductor Bi2Sr2CaCu2O8+d: a comparison between real and momentum space photoemission spectroscopies”, Phys. Rev. Lett. 96, 067005 (2006).

　　20. T. Sasagawa, A. Lanzara, G.-H. Gweon, S. Zhou, J. Graf, Survadijaya, H. Takagi, “Oxygen isotope effect on the electron dynamics in Bi2Sr2CaCu2O8+d: angle-resolved photoemission spectroscopy”, Physica C – superconductivity and its applications 426, 436 (2005).

　　21. G.-H. Gweon, T. Sasagawa, S.Y. Zhou, J. Graf, H. Takagi, D.H. Lee and A. Lanzara, “Anomalous isotope effect on the electron dynamics of Bi2Sr2CaCu2O8+d high temperature superconductor”, Nature 430, 187 (2004).

　　Charge Density Wave

　　22. D.R. Garcia, S.Y. Zhou, G.-H. Gweon, M.H. Jung, Y.S. Kwon and A.Lanzara, “Probing the band structure of LaTe2 using angle-resolved photoemission spectroscopy”, J. Elec. Spec. Relat. Phenom. 156-158, 58 (2007).

　　23. D.R. Garcia, G.-H. Gweon, S.Y. Zhou, J. Graf, C.J. Jozwiak, M.H. Jung, Y.S. Kwon and A. Lanzara, “Revealing charge density wave formation in the LaTe2 system by angle resolved photoemission spectroscopy”, Phys. Rev. Lett. 98, 166403 (2007).

　　Carbon Nanotube

　　24. Yong-qiang Cheng, Shu-yun Zhou and Bang-fen Zhu, “Isotope effect on phonon spectra in single-walled carbon nanotubes”, Phys. Rev. B 72, 035410 (2005).

　　Book chapters:

　　1. S.Y. Zhou and A. Lanzara, “The electronic structure of epitaxial graphene – a view from angle-resolved photoemission spectroscopy” in Oxford Handbook of Nanoscience and Technology: Frontiers and Advances. Narlikar, A.V. & Fu, Y.Y. Eds. (Oxford Univ. Press, Oxford, 2009)

　　2. A. Lanzara, G.-H. Gweon, S.Y. Zhou, “Lattice dynamics and paired electrons in high temperature superconductors” in New Challenges in Superconductivity: Experimental Advances and Emerging Theories, NATO Science Series II – Mathematics, Physics and Chemistry. Ashkenazi J. et al. EDs. (Springer, Netherlands, 2005)