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清华大学工程物理系导师教师师资介绍简介-蒲以康

本站小编 Free考研考试/2020-04-16

博士,教授
电话:**
邮箱:puyikang@tsinghua.edu.cn





教育背景



工作经历



教学工作



研究领域



研究概况



学术成果



学术兼职



奖励与荣誉


● 1983.9-1988.10 MIT物理系 博士研究生
● 1989.6 被授予博士学位
论文题目Trapped Electron Modes and Anomalous Electron Thermal Energy Transport;论文导师Bruno Coppi
● 1982-1983 John Hopkins University物理系
● 1982.8 参加李政道先生组织的CUSPEA项目赴美学习物理
● 1978.9-1982.6 中国科学技术大学 无线电与电子学系 本科
● 2002.9-至今 清华大学工程物理系工作,教授,博士生导师。
 从事低温等离子体物理、诊断和应用研究。主持的科研项目包括:国家自然科学基金面上项目,国家自然科学基金重点项目,科技部重大专项以及由韩国三星电子和上海中微公司资助的横向项目。
● 1999.2-2002.8 清华大学电机工程与应用电子技术系工作,教授,博士生导师。
 从事低温等离子体物理、诊断和应用研究。并入选校“”
● 1994.9-1999.1 北京理工大学应用物理系教授。
 从事等离子体在环保技术上的应用研究工作和低温等离子体辅助生长GaN晶膜的工作
● 1988.10-1994.7 在美国Spire公司从事低温等离子体的应用工作. 曾主持了美国能源部,空军及NASA的多项研究课题,参与了美国陆军,国防部和国家科学基金会的多个项目的研究
● 研究生课程:等离子体物理导论,低温等离子体物理及应用,低温等离子体物理最新进展;
● 本科生课程:等离子体、激光与电子束,实验室科研探究课,等离子体物理基础,专业基础实验等;
● 博士后:张姝、朱悉铭,Keisuke Takashima(日本);邓小娣,Jerome Jolibois (法国)。
● 放电参数调节和控制,半导体芯片加工工艺和设备,等离子体与材料表面相互作用与应用等。
● 等离子体与器壁表面相互作用;
● 低温等离子体诊断与模型;
● 大气压低温等离子体的放电物理。
发表论文一百余篇;申请国内发明专利18项。
代表性论文如下:
  [1] Y.K. Pu, S. Migliuolo, FINITE BETA-STABILIZATION OF THE KINETIC ION MIXING MODE, Physics of Fluids, 28 (1985) 1722-1726.
  [2] B. Coppi, P. Detragiache, R. Englade, S. Migliuolo, F. Pegoraro, F. Porcelli, Y.K. Pu, L. Sugiyama, High energy particle populations, transport processes and fusion burn conditions, Plasma Physics and Controlled Nuclear Fusion Research 1988. Proceedings of the Twelfth International Conference Held by the International Atomic Energy Agency, (1988) 201-209 vol.202.
  [3] W. Halverson, Y.K. Pu, L. Bromberg, D. Cohn, C. Petty, R. Post, D. Smatlak, R. Torti, L. Wang, GYROTRON-DRIVEN ECR ION-SOURCE SCALING, DESIGN, AND EXPERIMENTS, Journal De Physique, 50 (1989) 751-758.
  [4] B. Coppi, S. Migliuolo, Y.K. Pu, CANDIDATE MODE FOR ELECTRON THERMAL-ENERGY TRANSPORT IN MULTI-KEV PLASMAS, Physics of Fluids B-Plasma Physics, 2 (1990) 2322-2333.
  [5] Y.K. Pu, W. Halverson, C. Petty, D. Smatlak, R. Torti, ELECTRON-CYCLOTRON RESONANCE ION-SOURCE FREQUENCY SCALING AND RADIAL CONFINEMENT IN A QUADRUPOLE MAGNETIC-FIELD, Review of Scientific Instruments, 61 (1990) 276-278.
  [6] Y.K. Pu, Y.F. Ren, S.Z. Yang, D. Dywer, X.G. Zhang, X.J. Jia, The dependence of GaN growth rate on electron temperature in an ECR plasma, Surface & Coatings Technology, 131 (2000) 470-473.
  [7] Z.D. Kang, Y.K. Pu, Electron temperature control in inductively coupled nitrogen plasmas by adding argon/helium, Chinese Physics Letters, 19 (2002) 1139-1140.
  [8] Z.D. Kang, Y.K. Pu, Molecular nitrogen vibrational temperature in an inductively coupled plasma, Chinese Physics Letters, 19 (2002) 211-213.
  [9] Y.K. Pu, Z.G. Guo, Z.D. Kang, J. Ma, Z.C. Guan, G.Y. Zhang, E.G. Wang, Comparative characterization of high-density plasma reactors using emission spectroscopy from VUV to NIR, Pure and Applied Chemistry, 74 (2002) 459-464.
  [10] X.X. Wang, M.Z. Lu, Y.K. Pu, Possibility of atmospheric pressure glow discharge in air, Acta Physica Sinica, 51 (2002) 2778-2785.
  [11] J. Ma, Y.K. Pu, Tuning the electron temperature of a nitrogen plasma by adding helium and argon, Physics of Plasmas, 10 (2003) 4118-4122.
  [12] J. Ma, Y.K. Pu, Tuning effect on the electron energy distribution function of an inert gas mixture in nitrogen inductively coupled plasma discharges, Chinese Physics Letters, 20 (2003) 1527-1529.
  [13] E.G. Wang, Z.G. Guo, J. Ma, M.M. Zhou, Y.K. Pu, S. Liu, G.Y. Zhang, D.Y. Zhong, Optical emission spectroscopy study of the influence of nitrogen on carbon nanotube growth, Carbon, 41 (2003) 1827-1831.
  [14] X.X. Wang, C.R. Li, M.Z. Lu, Y.K. Pu, Study on an atmospheric pressure glow discharge, Plasma Sources Science & Technology, 12 (2003) 358-361.
  [15] W. He, Z.G. Guo, Y.K. Pu, L.T. Yan, W.J. Si, Polymer coating on the surface of zirconia nanoparticles by inductively coupled plasma polymerization, Applied Physics Letters, 85 (2004) 896-898.
  [16] R. Aman ur, Y.K. Pu, Effect of boundary conditions on the classical skin depth and nonlocal behavior in inductively coupled plasmas, Physics of Plasmas, 12 (2005).
  [17] Z. Chen, W. He, Y.K. Pu, Measurement of metastable state Densities and electron temperatures in an electron cyclotron resonance argon plasma, Acta Physica Sinica, 54 (2005) 2153-2157.
  [18] Y. Li, Z. Chen, Y.K. Pu, Density measurement of helium metastable states by absorption spectroscopy in an inductively coupled plasma, Plasma Processes and Polymers, 2 (2005) 581-585.
  [19] Y.K. Pu, Z.D. Yu, Z.G. Guo, Effect of wall reflection on the determination of electron temperature by the line-ratio method in inductively coupled plasmas, Physics of Plasmas, 12 (2005).
  [20] Y.K. Pu, Z.D. Yu, Z.G. Guo, Optical interference induced by deposited wall-film in inductively coupled plasmas, Journal of Physics D-Applied Physics, 38 (2005) 3457-3460.
  [21] W.C. Zhu, B.R. Wang, Z.X. Yao, Y.K. Pu, Discharge characteristics of an atmospheric pressure radio-frequency plasma jet, Journal of Physics D-Applied Physics, 38 (2005) 1396-1401.
  [22] X.M. Zhu, Y.K. Pu, Determining the electron temperature in inductively coupled nitrogen plasmas by optical emission spectroscopy with molecular kinetic effects, Physics of Plasmas, 12 (2005).
  [23] R. Aman ur, Y.-K. Pu, Effect of axial finiteness on electron heating in low-frequency inductively coupled plasmas, Physics of Plasmas, 13 (2006).
  [24] Y.K. Pu, Z.G. Guo, R. Aman ur, Z.D. Yu, J. Ma, Mining effect of inert gas mixing on electron energy distribution function in inductively coupled discharges, Plasma Physics and Controlled Fusion, 48 (2006) 61-70.
  [25] Z. Zhao, J. Chen, Y. Ding, M. Chen, Y. Pu, Exploration of the yield-ratio method at Shenguang II laser facility, Review of Scientific Instruments, 77 (2006).
  [26] X.M. Zhu, Y.K. Pu, A molecular kinetic model for the optical emission spectroscopy technique in inductively coupled nitrogen plasma, Physics of Plasmas, 13 (2006).
  [27] X.-M. Zhu, Y.-D. Pu, Z.-G. Guo, Y.-K. Pu, A novel method to determine electron density by optical emission spectroscopy in low-pressure nitrogen plasmas, Physics of Plasmas, 13 (2006).
  [28] R. Aman ur, Y.-K. Pu, Effect of electron thermal motion on plasma heating in a magnetized inductively coupled plasma, Physics of Plasmas, 14 (2007).
  [29] Y. Chen, Z.-G. Guo, X.-M. Zhu, Z.-G. Mao, Y.-K. Pu, Spatially resolved optical emission spectroscopy investigation of E and H modes in cylindrical inductively coupled plasmas, Journal of Physics D-Applied Physics, 40 (2007) 5112-5116.
  [30] J. Guha, Y.-K. Pu, V.M. Donnelly, Auger electron spectroscopy of surfaces during exposure to gaseous discharges, Journal of Vacuum Science & Technology A, 25 (2007) 347-352.
  [31] Z. Zhao, Y. Ding, J. Dong, Y. Haol, S. Wui, L. Caol, Y. Pu, Richardson-Lucy method for decoding x-ray ring code image, Plasma Physics and Controlled Fusion, 49 (2007) 1145-1150.
  [32] Z.-Q. Zhao, Y.-K. Ding, Y.-Q. Go, X.-X. Wang, W. Hong, J. Wang, Y.-D. Hao, Y.-T. Yuan, Y.-K. Pu, Monte Carlo simulation of K alpha source produced by ultrashort and ultrahigh laser interaction with Cu target, Acta Physica Sinica, 56 (2007) 7127-7131.
  [33] J. Zheng, X. Song, Y. Zhang, Y. Li, X. Li, Y. Pu, Nanosized aluminum nitride hollow spheres formed through a self-templating solid-gas interface reaction, Journal of Solid State Chemistry, 180 (2007) 276-283.
  [34] X.-M. Zhu, W.-C. Chen, S. Zhang, Z.-G. Guo, D.-W. Hu, Y.-K. Pu, Electron density and ion energy dependence on driving frequency in capacitively coupled argon plasmas, Journal of Physics D-Applied Physics, 40 (2007) 7019-7023.
  [35] X.-M. Zhu, Y.-K. Pu, A simple collisional-radiative model for low-pressure argon-oxygen mixture discharges, Journal of Physics D-Applied Physics, 40 (2007) 5202-5205.
  [36] X.-M. Zhu, Y.-K. Pu, A simple collisional-radiative model for low-pressure argon discharges, Journal of Physics D-Applied Physics, 40 (2007) 2533-2538.
  [37] J. Guha, V.M. Donnelly, Y.-K. Pu, Mass and Auger electron spectroscopy studies of the interactions of atomic and molecular chlorine on a plasma reactor wall, Journal of Applied Physics, 103 (2008).
  [38] J. Guha, P. Kurunczi, L. Stafford, V.M. Donnelly, Y.-K. Pu, In-situ surface recombination measurements of oxygen atoms on anodized aluminum in an oxygen plasma, Journal of Physical Chemistry C, 112 (2008) 8963-8968.
  [39] Y.-g. He, X.-z. Tang, Y.-k. Pu, Modeling shock waves in an ideal gas: Combining the Burnett approximation and Holian's conjecture, Physical Review E, 78 (2008).
  [40] J. Li, S.-P. Bai, X.-C. Shi, S.-L. Han, X.-M. Zhu, W.-C. Chen, Y.-K. Pu, Effects of temperature on benzene oxidation in dielectric barrier discharges, Plasma Chemistry and Plasma Processing, 28 (2008) 39-48.
  [41] J. Li, S.-T. Han, S.-P. Bai, X.-C. Shi, S.-L. Han, H. Song, X.-M. Zhu, W.-C. Chen, Y.-K. Pu, Effect of the reactor surface roughness on benzene oxidation in dielectric barrier discharges, Plasma Sources Science & Technology, 17 (2008).
  [42] Y.-H. Li, Y. Wu, M. Jia, Z.-W. Zhou, Z.-G. Guo, Y.-K. Pu, Optical Emission Spectroscopy Investigation of a Surface Dielectric Barrier Discharge Plasma Aerodynamic Actuator, Chinese Physics Letters, 25 (2008) 4068-4071.
  [43] X. Song, Z. Guo, J. Zheng, X. Li, Y. Pu, AlN nanorod and nanoneedle arrays prepared by chloride assisted chemical vapor deposition for field emission applications, Nanotechnology, 19 (2008).
  [44] Y. Wu, Y. Li, M. Jia, H. Song, Z. Guo, X. Zhu, Y. Pu, Influence of operating pressure on surface dielectric barrier discharge plasma aerodynamic actuation characteristics, Applied Physics Letters, 93 (2008).
  [45] Z.-Q. Zhao, Y.-K. Ding, Y.-D. Hao, Y.-T. Yuan, Y.-K. Pu, The effect of alignment precision in neutron penumbral imaging, Acta Physica Sinica, 57 (2008) 5756-5760.
  [46] J. Zheng, X. Song, X. Li, Y. Pu, Large-scale production of amorphous silicon oxynitride nanowires by nickel-catalyzed transformation of silicon wafers in NH3 plasma, Journal of Physical Chemistry C, 112 (2008) 27-34.
  [47] J. Zheng, B. Sun, R. Yang, X. Song, X. Li, Y. Pu, Metal Al produced by H-2 plasma reduction of AlCl3: A thermodynamic and kinetic study on the plasma chemistry, Journal of Physical Chemistry B, 112 (2008) 12748-12752.
  [48] X.-M. Zhu, W.-C. Chen, Y.-K. Pu, Gas temperature, electron density and electron temperature measurement in a microwave excited microplasma, Journal of Physics D-Applied Physics, 41 (2008).
  [49] X.-M. Zhu, Y.-K. Pu, Using OES to determine electron temperature and density in low-pressure nitrogen and argon plasmas, Plasma Sources Science & Technology, 17 (2008).
  [50] W.C. Chen, X.M. Zhu, S. Zhang, Y.K. Pu, Reconstruction of ion energy distribution function in a capacitive rf discharge, Applied Physics Letters, 94 (2009).
  [51] D.-W. Hu, Y.-K. Pu, Experimental investigation of emission intensities in an inductively coupled afterglow neon plasma, Journal of Physics D-Applied Physics, 42 (2009).
  [52] J. Li, X.-B. Huang, S.-Q. Zhang, L.-B. Yang, W.-P. Xie, Y.-K. Pu, Investigation of spectra unfolded for a filtered x-ray diode array with improved smoothness, Review of Scientific Instruments, 80 (2009).
  [53] Q. Li, J.-T. Li, W.-C. Zhu, X.-M. Zhu, Y.-K. Pu, Effects of gas flow rate on the length of atmospheric pressure nonequilibrium plasma jets, Applied Physics Letters, 95 (2009).
  [54] L.-G. Zhu, W.-C. Chen, X.-M. Zhu, Y.-K. Pu, Z.-R. Li, Chromatic-free spatially resolved optical emission spectroscopy diagnostics for microplasma, Review of Scientific Instruments, 80 (2009).
  [55] L.-G. Zhu, Y.-K. Pu, Z.-R. Li, Analysis and elimination of the distortion in electro-optic measurement of low-energy subpicosecond electron bunches, Nuclear Instruments & Methods in Physics Research Section a-Accelerators Spectrometers Detectors and Associated Equipment, 600 (2009) 673-677.
  [56] L.-G. Zhu, Z.-B. Zhang, X.-M. Zhu, Y.-K. Pu, Z.-R. Li, Spatial nonuniformity of electron energy in a microwave atmospheric-pressure microplasma, Applied Physics Letters, 94 (2009).
  [57] W.-C. Zhu, Q. Li, X.-M. Zhu, Y.-K. Pu, Characteristics of atmospheric pressure plasma jets emerging into ambient air and helium, Journal of Physics D-Applied Physics, 42 (2009).
  [58] X.M. Zhu, Y.K. Pu, N. Balcon, R. Boswell, Measurement of the electron density in atmospheric-pressure low-temperature argon discharges by line-ratio method of optical emission spectroscopy, Journal of Physics D-Applied Physics, 42 (2009).
  [59] X.-M. Zhu, W.-C. Chen, J. Li, Y.-K. Pu, Determining the electron temperature and the electron density by a simple collisional-radiative model of argon and xenon in low-pressure discharges, Journal of Physics D-Applied Physics, 42 (2009).
  [60] X.-M. Zhu, Y.-K. Pu, Nonequilibrium excited particle population distribution in low-temperature argon discharges, Journal of Physics D-Applied Physics, 42 (2009).
  [61] Y.-g. He, X.-z. Tang, Y.-k. Pu, First-principle study of solid neon under high compression, Physica B-Condensed Matter, 405 (2010) 4335-4338.
  [62] J. Li, W.-P. Xie, X.-B. Huang, L.-B. Yang, H.-C. Cai, Y.-K. Pu, Application of a collisinal-radiative model for the analysis of K-shell line spectra emitted by Z-pinch plasma, Acta Physica Sinica, 59 (2010) 7922-7929.
  [63] J. Li, X.-M. Zhu, Y.-K. Pu, The population distribution of argon atoms in Paschen 1s levels in an inductively coupled plasma, Journal of Physics D-Applied Physics, 43 (2010).
  [64] Q. Li, W.-C. Zhu, X.-M. Zhu, Y.-K. Pu, Effects of Penning ionization on the discharge patterns of atmospheric pressure plasma jets, Journal of Physics D-Applied Physics, 43 (2010).
  [65] Q. Li, X.-M. Zhu, J.-T. Li, Y.-K. Pu, Role of metastable atoms in the propagation of atmospheric pressure dielectric barrier discharge jets, Journal of Applied Physics, 107 (2010).
  [66] W. Tian, X.-M. Zhu, Y.-K. Pu, Different patterns of high-energy and low-energy electrons in an atmospheric-pressure microplasma generated by a hairpin resonator, Journal of Physics D-Applied Physics, 43 (2010).
  [67] Y. Wu, Y. Li, M. Jia, H. Song, C. Su, Y. Pu, Experimental Investigation into Characteristics of Plasma Aerodynamic Actuation Generated by Dielectric Barrier Discharge, Chinese Journal of Aeronautics, 23 (2010) 39-45.
  [68] L.-G. Zhu, Z.-R. Li, Y.-K. Pu, Approach to broadband terahertz pulse field detection and recovery with electro-optic sampling measurement, Optics Communications, 283 (2010) 1873-1876.
  [69] W.-C. Zhu, B.-R. Wang, H.-L. Xi, Y.-K. Pu, Decontamination of VX Surrogate Malathion by Atmospheric Pressure Radio-frequency Plasma Jet, Plasma Chemistry and Plasma Processing, 30 (2010) 381-389.
  [70] X.-M. Zhu, Y.-K. Pu, Optical emission spectroscopy in low-temperature plasmas containing argon and nitrogen: determination of the electron temperature and density by the line-ratio method, Journal of Physics D-Applied Physics, 43 (2010).
  [71] X.-M. Zhu, Y.-K. Pu, A simple collisional-radiative model for low-temperature argon discharges with pressure ranging from 1 Pa to atmospheric pressure: kinetics of Paschen 1s and 2p levels, Journal of Physics D-Applied Physics, 43 (2010).
  [72] J. Li, S. Han, S. Bai, X. Shi, S. Han, H. Song, Y. Pu, X. Zhu, W. Chen, Effect of Pt/gamma-Al2O3 Catalyst on Nonthermal Plasma Decomposition of Benzene and Byproducts, Environmental Engineering Science, 28 (2011) 395-403.
  [73] J. Li, F.-X. Liu, X.-M. Zhu, Y.-K. Pu, The spatially resolved measurements of the atomic densities in argon Paschen 1s levels by OES in a capacitively coupled plasma, Journal of Physics D-Applied Physics, 44 (2011).
  [74] J. Li, X.-M. Zhu, Y.-K. Pu, A novel method of using the OES line ratio to determine the spatially resolved atomic density in low-temperature plasmas and its application in carbon and aluminium atoms in capacitively coupled plasmas, Journal of Physics D-Applied Physics, 44 (2011).
  [75] Q. Li, Y.-K. Pu, M.A. Lieberman, D.J. Economou, Dynamic model of streamer coupling for the homogeneity of glowlike dielectric barrier discharges at near-atmospheric pressure, Physical Review E, 83 (2011).
  [76] Q. Li, Y.-K. Pu, H. Nishiyama, Atmospheric-Pressure Dielectric Barrier Plasma Jets Elongated by Elevating External Electric Field, Ieee Transactions on Plasma Science, 39 (2011) 2290-2291.
  [77] Q. Li, H. Takana, Y.-K. Pu, H. Nishiyama, An atmospheric pressure quasiuniform planar plasma jet generated by using a dielectric barrier configuration, Applied Physics Letters, 98 (2011).
  [78] X. Zhu, Y. Pu, Determination of Non-Maxwellian Electron Energy Distributions in Low-Pressure Plasmas by Using the Optical Emission Spectroscopy and a Collisional-Radiative Model, Plasma Science & Technology, 13 (2011) 267-278.
  [79] Q. Li, H. Takana, Y.-K. Pu, H. Nishiyama, A nonequilibrium argon-oxygen planar plasma jet using a half-confined dielectric barrier duct in ambient air, Applied Physics Letters, 100 (2012).
  [80] X.-M. Zhu, W.-C. Chen, J. Li, Z.-W. Cheng, Y.-K. Pu, Spatial evolution of the electron energy distribution function in a low-pressure capacitively coupled plasma containing argon and krypton, Plasma Sources Science & Technology, 21 (2012).
  [81] X.-M. Zhu, Y.-K. Pu, Y. Celik, S. Siepa, E. Schuengel, D. Luggenhoelscher, U. Czarnetzki, Possibilities of determining non-Maxwellian EEDFs from the OES line-ratios in low-pressure capacitive and inductive plasmas containing argon and krypton, Plasma Sources Science & Technology, 21 (2012).
  [82] X.-M. Zhu, J.L. Walsh, W.-C. Chen, Y.-K. Pu, Measurement of the temporal evolution of electron density in a nanosecond pulsed argon microplasma: using both Stark broadening and an OES line-ratio method, Journal of Physics D-Applied Physics, 45 (2012).
  [83] Y. Dong, W. Shang, J. Yang, L. Zhang, W. Zhang, Z. Li, L. Guo, X. Zhan, H. Du, B. Deng, Y. Pu, The impact of low-Z impurities on x-ray conversion efficiency from laser-produced plasmas of low-density gold foam targets, Physics of Plasmas, 20 (2013).
  [84] D. Hong, H. Rabat, Y.K. Pu, A. Leroy, Measurement of the surface charging of a plasma actuator using surface DBD, Journal of Electrostatics, 71 (2013) 547-550.
  [85] B.-D. Huang, X.-M. Zhu, K. Takashima, Y.-K. Pu, The spatial-temporal evolution of the electron density and temperature for a nanosecond microdischarge, Journal of Physics D-Applied Physics, 46 (2013).
  [86] Z.-B. Wang, N. Sadeghi, T.V. Tsankov, Y.-K. Pu, The influence of the spatial nonuniformity on the measurement of Ar*(1s5) density by the self-absorption technique, Journal of Physics D-Applied Physics, 46 (2013).
  [87] W.-C. Chen, Y.-K. Pu, An analytical model for time-averaged ion energy distributions in collisional rf sheaths, Journal of Physics D-Applied Physics, 47 (2014).
  [88] Z.-W. Cheng, X.-M. Zhu, F.-X. Liu, Y.-K. Pu, Determination of the rate coefficients of the electron-impact excitation from the metastable states to 2p states of argon by the emission line ratios in an afterglow plasma, Journal of Physics D-Applied Physics, 47 (2014).
  [89] X. Deng, Y. Song, J. Li, Y. Pu, Interaction of tetraethoxysilane with OH-terminated SiO2 (001) surface: A first principles study, Applied Surface Science, 305 (2014) 247-251.
  [90] X. Deng, Y. Song, J. Li, Y. Pu, Parametrization of the Stillinger-Weber potential for Si/N/H system and its application to simulations of silicon nitride film deposition with SiH4/NH3, Journal of Applied Physics, 115 (2014).
  [91] Y. Dong, W. Shang, J. Yang, L. Zhang, W. Zhang, Z. Li, L. Guo, X. Zhan, H. Du, B. Deng, Y. Pu, Enhanced x-ray emissions from Au-Gd mixture targets ablated by a high-power nanosecond laser, Journal of Applied Physics, 115 (2014).
  [92] J.-T. Li, B. Hoekstra, Z.-B. Wang, Y.-K. Pu, The initial oxidation of poly-crystalline aluminum studied with x-ray photoelectron spectroscopy, Journal of Physics D-Applied Physics, 47 (2014).
  [93] F.-X. Liu, Z.-B. Wang, Y.-K. Pu, The ac-coupling between a Langmuir probe and a plasma and its effect on the plasma density measurement in the afterglow, Journal of Physics D-Applied Physics, 47 (2014).
  [94] Q. Li, H. Takana, Y.K. Pu, H. Nishiyama, Glow-Like Helium and Filament-Like Argon Plasma Jets of Using a Dielectric Barrier Configuration at Atmospheric Pressure, Ieee Transactions on Plasma Science, 42 (2014) 2360-2361.
  [95] B.D. Huang, X.M. Zhu, W.C. Chen, Y.K. Pu, The Evolution of the Optical Emission Pattern From a Pulsed Microwave-Excited Microstrip Split-Ring Resonator Microplasma, Ieee Transactions on Plasma Science, 42 (2014) 2772-2773.
  [96] B.D. Huang, K. Takashima, X.M. Zhu, Y.K. Pu, The Evolution of the Optical Emission Pattern of a Nanosecond Pulsed Helium Microdischarge With a Pin-to-Pin Electrode at Atmospheric Pressure, Ieee Transactions on Plasma Science, 42 (2014) 2642-2643.
  [97] J.T. Li, J. Parisi, Z.B. Wang, Y.K. Pu, The energy evolution of surface plasmons on an oxidized aluminum surface: the role of the atomic polarizability of oxygen adsorbates and the thickness of the oxide layer, Journal of Physics D-Applied Physics, 47 (2014) 8.
  [98] B.D. Huang, K. Takashima, X.M. Zhu, Y.K. Pu, The influence of the repetition rate on the nanosecond pulsed pin-to-pin microdischarges, Journal of Physics D-Applied Physics, 47 (2014) 7.
  [99] Z.W. Cheng, X.M. Zhu, F.X. Liu, Y.K. Pu, Determination of the electron-impact transfer rate coefficients between the Ar(1s) states in an afterglow discharge, Journal of Physics D-Applied Physics, 47 (2014) 13.
  [100] K. Sasaki, E.V. Barnat, R. Engeln, S. Higashi, T. Ishijima, M. Ito, T. Ito, K. Kinoshita, K. Kurihara, T. Nakano, S. Nunomura, Y.-K. Pu, O. Sakai, T. Sato, Special Issue: Plasma Processing Foreword Plasma Processing, Japanese Journal of Applied Physics, 54 (2015).
  [101] F.-X. Liu, T.V. Tsankov, Y.-K. Pu, The electron density evolution in pulsed 60 MHz capacitively coupled oxygen discharges, Journal of Physics D-Applied Physics, 48 (2015).
● 2004-2017 国际等离子体化学学会(IPCS)理事
● 2012-2013 国际等离子体化学学会(IPCS)副主席
● 2010至今 国际微等离子体会议(IMW)委员
● 2009至今 国际电离气体现象会议(ICPIG)委员
● 2009至今 英国物理杂志应用物理专刊(Journal of Physics: D)编委
● 2008至今 亚太等离子体科学与技术会议(APCPST)委员
● 2004-2007 国际等离子体物理会议(ICPP)委员
● 2009, 2014 guest editor of Thin Solid Films
● 2015 member of organizing committee of ICRP 9 14th International Conference on Plasma Surface Engineering.,member of the Advisory Board (AB)
8th International Conference on Reactive Plasmas/31st Symposium on Plasma Processing(ICRP-8/SPP-31):International Program Committee Member
● 2007年清华大学校级先进工作者

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