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王友年
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提要:王友年,“长江学者奖励计划”特聘教授,教育部“跨世纪优秀人才计划”基金获得者,大连理工大学三束材料改性国家重点实验室副主任。
王友年

个人简介:

王友年,“长江学者奖励计划”特聘教授,教育部“跨世纪优秀人才计划”基金获得者,大连理工大学三束材料改性国家重点实验室副主任。主要学历:1983年本科毕业于安徽省阜阳师范学院物理系;1986年硕士毕业于大连工学院物理系;1986年至今,在大连理工大学物理系、三束材料改性国家重点实验室工作;1998年被评为博士生导师;2001受聘为“长江学者奖励计划”特聘教授。1997年,在加拿大Waterloo大学做访问教授。社会兼职有:1.中国计算物理学会理事、辽宁省分会副理事长;2.《强激光与粒子束》编委;3.《大连理工大学学报》编委。

主要经历:

1979-1983: 安徽省阜阳师范学院物理系,获理学学士学位;

1983-1986:大连工学院(现大连理工大学)物理系,获理学硕士学位;

1986-1988:大连理工大学物理系,助教;

1988-1991:大连理工大学物理系,讲师;

1991-1994:大连理工大学物理系,副教授;

2001-2006:大连理工大学“长江学者奖励计划”特聘教授;

1995.07-1995.12: 加拿大Waterloo大学做访问教授;

1997.09-1997.12: 加拿大Waterloo大学做访问教授。

现为中国计算物理学会理事、辽宁省分会副理事长。

著作和论文:

2011 
  202. Y. X. Liu, Q. Z. Zhang, W. Jiang, L. J. Hou, X. Z. Jiang, W. Q. Lu, and Y. N. Wang, "Collisionless Bounce Resonance Heating in Dual-Frequency Capacitively Coupled Plasmas", Phys. Rev. Lett., 107, 055002 (2011) 
  201. X. M. Liu, Y. H. Song, and Y. N. Wang, "Driving frequency effects on the mode transition in capacitively coupled argon discharges", Chin. Phys. B, 20, 065205 (2011) 
  200. X. Xu, J. Feng, X. M. Liu, and Y. N. Wang, "Study of the dust removal efficiency in capacitively coupled plasmas with annular electrodes", Curr. Appl. Phys., 11, S131 (2011) 
  199. Z. H. Bi, Y. X. Liu, W. Jiang, X. Xu, and Y. N. Wang, "A brief review of dual-frequency capacitively coupled discharges", Curr. Appl. Phys., 11, S2 (2011) 
  198. Q. Z. Zhang, W. Jiang, L. J. Hou, and Y. N. Wang, "Numerical simulations of electrical asymmetry effect on electronegative plasmas in capacitively coupled rf discharge", J. Appl. Phys., 109, 013308 (2011) 
  197. M. Mao, Y. N. Wang and A. Bogaerts, "Numerical study of the plasma chemistry in inductively coupled SF6 and SF6/Ar plasmas used for deep silicon etching applications", J. Phys. D: Appl. Phys., 44, 435202 (2011) 
  196. E. Schungel, Q. Z. Zhang, S. Iwashita, J. Schulze, L. J. Hou, Y. N. Wang and U. Czarnetzki, "Control of plasma properties in capacitively coupled oxygen discharges via the electrical asymmetry effect", J. Phys. D: Appl. Phys., 44, 285205 (2011) 
  195. X. Z. Jiang, Y. X. Liu, Shuo Yang, W. Q. Lu, Z. H. Bi, X. S. Li, and Y. N. Wang, "Spatially resolved measurements of ion density and electron temperature in a dual-frequency capacitively coupled plasma by complete floating double probe technique", J. Vac. Sci. Technol. A 29, 011006 (2011) 
  194. Z. H. Hu, Y. H. Song, Z. L. Miskovic, and Y. N. Wang, "Energy dissipation of ion beam in two-component plasma in the presence of laser irradiation", Laser Part. Beams, 29, 299 (2011) 
  193. X. S. Li, N. Wang, J. H. Yang, Y. N. Wang, and A. M. Zhu, "Polysilicon Prepared from SiCl4 by Atmospheric-Pressure Non-Thermal Plasma", Plasma Sci. Technol., 13, 567 (2011) 
  192. H. Zhang, Z. L. Dai, and Y. N. Wang, "Characteristics of a Collisional Sheath Biased by a Dual Frequency Source", Plasma Sci. Technol., 13, 513 (2011) 
  191. Z. H. Bi, X. Xu, Y. X. Liu, X. Z. Jiang, W. Q. Lu, and Y. N. Wang, "Comparison of 2D Hybrid Simulational and Experimental Results for Dual-Frequency Capacitively Coupled Argon Plasmas", Plasma Sci. Technol. 13, 181 (2011) 
  190. G. L. Zhao, Y. Xu, J. P. Shang, W. Y. Liu, A. M. Zhu, and Y. N. Wang, "Plasma Uniformity in a Dual Frequency Capacitively Coupled Plasma Reactor Measured by Optical Emission Spectroscopy", Plasma Sci. Technol., 13, 61 (2011) 
  189. Z. L. Dai, M. L. Hao, and Y. N. Wang, "Study of Characteristics of the Radio-Frequency Sheath over a Substrate with a Circular Trench", Plasma Sci. Technol., 13, 50 (2011) 
  188. W. Jiang, H. Y. Wang, Z. H. Bi, and Y. N. Wang, "Implicit and electrostatic particle-in-cell/Monte Carlo model in two-dimensional and axisymmetric geometry: II. Self-bias voltage effects in capacitively coupled plasmas", Plasma Sources Sci. Technol., 20, 035013 (2011) 
  187. Y. Zhang, Y. H. Song, and Y. N. Wang, "Nonlinear wake potential and stopping power for charged particles interacting with a one-dimensional electron gas", Phys. Plasmas, 18, 112705 (2011) 
  186. X. M. Liu, Y. H. Song, X. Xu, and Y. N. Wang, "Phase-shift effects on growth and transport of dust particles in VHF capacitively coupled silane discharges: Two dimensional fluid simulation", Phys. Plasmas, 18, 083508 (2011) 
  185. Y. Zhang, Y. H. Song, and Y. N. Wang, "Stopping power for a charged particle moving through three-dimensional nonideal finite-temperature electron gases", Phys. Plasmas, 18, 072701 (2011) 
  184. X. J. Si, S. X. Zhao, X. Xu, A. Bogaerts, and Y. N. Wang, "Fluid simulations of frequency effects on nonlinear harmonics in inductively coupled plasma", Phys. Plasmas, 18, 033504 (2011) 
  183. X. M. Liu, Y. Wang, Y. H. Song, and Y. N. Wang, "Effect of pulse duration on characteristics of modulated radio-frequency SiH4/N2/NH3 discharges", Thin Solid Films, in press [1] 

2010 
  182. X. Xu, S. X Zhao, Y. R. Zhang, and Y. N. Wang, "Phase-shift effect in capacitively coupled plasmas with two radio frequency or very high frequency sources", J. Appl. Phys., 108, 043308 (2010) 
  181. S. X. Zhao and Y. N. Wang, "Investigation of the effect of metastable atoms on mode transition in argon inductive discharge via a hybrid model", J. Phys. D: Appl. Phys., 43, 275203 (2010) 
  180. Q. Z. Zhang, W. Jiang, S. X. Zhao, and Y. N. Wang, "Surface-charging effect of capacitively coupled plasmas driven by combined dc/rf sources", J. Vac. Sci. Technol. A, 28, 287 (2010) 
  179. Q. Wang, Y. H. Song, and Y. N. Wang, "Influences of finite Larmor radius on wake effects and stopping power for proton moving in magnetized two-component plasma", Phys. Lett. A, 374, 4678 (2010) 
  178. Y. R. Zhang, X. Xu, S. X Zhao, A. Bogaerts, and Y. N. Wang, "Comparison of electrostatic and electromagnetic simulations for very high frequency plasmas", Phys. Plasmas, 17, 113512 (2010) 
  177. Z. C. Li, D. L. Chang, X. S. Li, Z. H. Bi, W. Q. Lu, Y. Xu, A. M. Zhu, and Y. N. Wang, "Experimental investigation of ion energy distributions in a dual frequency capacitively coupled Ar/CF4 plasma", Phys. Plasmas, 17, 033501 (2010) 
  176. Y. R. Zhang, X. Xu, and Y. N. Wang, "Fluid simulation for influence of metastable atoms on the characteristics of capacitively coupled argon plasmas", Phys. Plasmas, 17, 033507 (2010) 
  175. F. Gao, Shu-Xia Zhao, Xiao-Song Li, and Y. N. Wang, "Effects of matching network on the hysteresis during E and H mode transitions in argon inductively coupled plasma", Phys. Plasmas, 17, 103507 (2010) 
  174. X. M. Liu, Y. H. Song, X. Xu, and Y. N. Wang, "Simulation of dust particles in dual-frequency capacitively coupled silane discharges", Phys. Rev. E, 81, 016405 (2010) 
  173. Z. H. Hu, Y. H. Song, and Y. N. Wang, "Wake effect and stopping power for a charged ion moving in magnetized two-component plasmas: Two-dimensional particle-in-cell simulation", Phys. Rev. E, 82, 026404 (2010) 
  172. H. Y. Wang, W. Jiang, and Y. N. Wang, "Implicit and electrostatic particle-in-cell/Monte Carlo model in two-dimensional and axisymmetric geometry: I. Analysis of numerical techniques", Plasmas Sources Sci. Technol., 19, 045023 (2010) 
  171. X. C. Li, L. C. Tian, and Y. N. Wang, "Sheath dynamics in a cylindrical PET-?lm for plasma immersion ion implantation", Vacuum, 84, 1118 (2010)[2] 

2009

170. X. M. Liu, Y. H. Song, and Y. N. Wang, "One-Dimensional Fluid Model for Dust Particles in Dual-Frequency Capacitively Coupled Silane Discharges", Chin. Phys. Lett., 26, 085201 (2009)

169. H. Y. Wang, W. Jiang, and Y. N. Wang, "Parallelization and optimization of electrostatic Particle-in-Cell/Monte-Carlo Coupled codes as applied to RF discharges", Comp. Phys. Comm., 180, 1305 (2009)

168. S. X. Zhao, X. Xu, X. C. Li, and Y. N. Wang, "Fluid simulation of the E-H mode transition in inductively coupled plasma", J. Appl. Phys., 105, 083306 (2009)

167. S. X. Zhao, F. Gao, and Y. N. Wang, "Dynamic investigation of mode transition in inductively coupled plasma with a hybrid model", J. Phys. D: Appl. Phys., 42, 225203 (2009)

166. W. Jiang, H. Y. Wang, S. X. Zhao, and Y. N. Wang, "Hysteresis induced by gap length effects in capacitively coupled plasmas at low pressures", J. Phys. D: Appl. Phys., 42, 102005 (2009)

165. C. Z. Li, Y. H. Song, and Y. N. Wang, "Energy loss of a charged particle moving outside a nano-dielectric sphere covered with infinitesimally thin metal film", Nucl. Instr. and Meth. B, 267, 3129 (2009)

164. S. Y. You, Y. H. Song, and Y. N. Wang, "Channeling of protons in double-walled carbon nanotubes in kinetic model", Nucl. Instr. and Meth. B, 267, 3133 (2009)

163. Z. L. Dai, C. S. Liu, and Y. N. Wang, "Two-Dimensional Simulation of a Dual Frequency Sheath Near an Electrode with a Cylindrical Hole", Plasma Sci. & Technol., (In press)

162. Z. H. Bi, Z. L. Dai, X. Xu, Z. C. Li, and Y. N. Wang, "Numerical results for the Ar and CF4 mixture gas in a dual frequency capacitively coupled plasma using a hybrid model", Phys. Plasmas, 16, 043510 (2009)

161. F. Gao, S. X. Zhao, X. S. Li, and Y. N. Wang, "Comparison between experiment and simulation for argon inductively coupled plasma", Phys. Plasmas, 16, 113502 (2009)

160. Z. H. Hu, Y. H. Song, G. C. Wang, and Y. N. Wang, "Nonlinear stopping power for ions moving in magnetized two-component plasmas", Phys. Plasmas, 16, 112304 (2009)

159. C. Z. Li, Y. H. Song, and Y. N. Wang, "Wake effects and energy loss for a charged particle moving above a thin metal film", Phys. Rev. A, 79, 062903 (2009)

158. Z. H. Hu, Y. H. Song, and Y. N. Wang, "Dynamic polarization and energy dissipation for charged particles moving in magnetized two-component plasmas", Phys. Rev. E, 79, 016405 (2009)

157. X. Xu, H. Ge, S. Wang, Z. L. Dai, Y. N. Wang, and A. M. Zhu, "Influence of the low-frequency source parameters on the plasma characteristics in a dual frequency capacitively coupled plasma reactor: Two dimensional simulations", Prog. Nat. Sci., 19, 677 (2009)

2008

156. X. S. Li, Z. H. Bi, D. L. Chang, Z. C. Li, S. Wang, X. Xu, Y. Xu, W. Q. Lu, A. M. Zhu, and Y. N. Wang, "Modulating effects of the low-frequency source on ion energy distributions in a dual frequency capacitively coupled plasma", Appl. Phys. Lett. 93, 031504 (2008)

155. Z. L. Dai, C. S. Liu, and Y. N. Wang, "Comparison between dual radio frequency and pulse-driven sheath near insulating substrates", Chin. Phys. Lett. 25, 632 (2008)

154. Y. Liu, Z. L. Dai, and Y. N. Wang, "Dust particle properties in a dual-frequency driven sheath", Chin. Phys. Lett. 25, 1372 (2008)

153. D. Zhao, Y. H. Song, and Y. N. Wang, "Kinetic study on channeling of protons in metallical carbon nanotubes", Chin. Phys. Lett. 25, 2588 (2008)

152. C. Z. Li, Y. H. Song, and Y. N. Wang, "Interactions of a charged particle with parallel two-dimensional quantum electron gases", Chin. Phys. Lett. 25, 2981 (2008)

151. S. Y. Miao, C. S. Ren, D. Z. Wang, Y. T. Zhang, B. Qi, and Y. N. Wang, "Conical DC discharge in ambient air using Water as an electrode", IEEE Trans. Plasma Sci., 36, 126 (2008)

150. C. S. Ren, D. Z. Wang, and Y. N. Wang, "Improvement of the graft and dyeability of linen by DBD treatment in ambient air", J. Matt. Proc. Technol., 206, 216 (2008)

149. X. S. Li, C. K. Lin, C. Shi, Y. Xu, Y. N. Wang, and A. M. Zhu, "Stable kilohertz spark discharges for high-efficiency conversion of methane to hydrogen and acetylene", J. Phys. D: Appl. Phys. 41, 175203 (2008)

148. C. Z. Li, Y. H. Song, and Y. N. Wang, "Wake effects and stopping power for a charged particle moving above two-dimensional quantum electron gases", Phys. Lett. A, 372, 4500 (2008)

147. W. Jiang, X. Xu, Z. L. Dai, and Y. N. Wang, "Heating mechanisms and particle flow balancing of capacitively coupled plasmas driven by combined dc/rf sources", Phys. Plasmas 15, 033502 (2008)

146. Y. H. Song, D. Zhao, and Y. N. Wang, "Kinetic study on self-energy and stopping power of charged particles moving in metallic carbon nanotubes", Phys. Rev. A, 78, 012901 (2008)

145. S. Wang, X. Xu, Y. H. Song, and Y. N. Wang, "Frequency matching effects on characteristics of bulk plasmas and sheaths for dual-frequency capacitively coupled argon discharges: one-dimensional fluid simulation", Plasma Sci. & Technol. , 10, 58 (2008)

144. X. L. Qi, C. S. Ren, T. C. Ma, and Y. N. Wang, "Cu films deposited by unbalanced magnetron sputtering enhanced by ICP and external magnetic field confinement", Plasma Sci. & Technol., 10, 320 (2008)

143. X. Xu and Y. N. Wang, "Influence of downstream flow on conduction phase of coaxial plasma opening switch", Plasma Sci. & Technol., 10, 429 (2008)

142. K. Wang, J. Li, C. S. Ren, D. Z. Wang, and Y. N. Wang, "Surface modification of polyethylene (PE) films using dielectric barrier discharge plasma at atmospheric pressure", Plasma Sci. & Technol. , 10, 433 (2008)

141. F. Liu, W. C. Wang, W. Zheng, and Y. N. Wang, "Investigation of spatially resolved spectra of OH and N2+ in N2 and H2O mixture wire-plate positive pulsed streamer discharge", Spect. Acta A 69, 776 (2008)

140. 胡章虎, 王琼, 宋远红, 王友年, "带电粒子与磁化等离子体相互作用的极化效应及能量损失", 强激光与粒子束, 20, 8090 (2008)

139. 高飞, 毛明, 丁振峰, 王友年, "射频感应耦合Ar2N2 等离子体物理特性的Langmuir 探针测量及理论研究", 物理学报, 57, 5123 (2008)[3] 

2007

138. M. Mao, S. Wang, Z. L. Dai, and Y. N. Wang, "RF electric field penetration and power deposition into nonequilibrium planar-type inductively coupled plasmas", Chinese Phys 16, 2045 (2007)

137. X. C. Li and Y. N. Wang, "Two-Dimensional Fluid Model of Pulse Sheath in Plasma Immersion Ion Implantation With Dielectric Substrates", IEEE Trans. Plasma Sci. 35, 1489 (2007)

136. K. Jiang, L. J. Hou, X. Xu and Y. N. Wang, "Waves and wakes excited by a moving disturbance in a 2D magnetized dusty plasma", New Journal of Physics 9 (2007) 57

135. Z. L. Miskovic, Y. N. Wang and Y. H. Song, "Dynamics of fast molecular ions in solids and plasmas: A review of recent theoretical developments", Nucl. Instr. and Methods B256, 57 (2007)

134. S. Wang, X. Xu, and Y. N. Wang, "Numerical investigation of ion energy distribution and ion angle distribution in a dual-frequency capacitively coupled plasma with a hybrid model", Phys. Plasmas 14, 113501 (2007)

133. Z. L. Dai, X. Xu, and Y. N. Wang, "A self-consistent hybrid model of a dual frequency sheath: Ion energy and angular distributions", Phys. Plasmas 14, 013507 (2007)

132. K. Jiang, Y. H. Song, and Y. N. Wang, "Theoretical study of the wave dispersion relation for a two-dimensional strongly coupled Yukawa system in a magnetic field", Phys. Plasmas 14, 103708 (2007)

131. L. Wei and Y. N. Wang, "Quantum ion-acoustic waves in single-walled carbon nanotube studied with a quantum hydrodynamic model", Phys. Rev. B 75, 193407 (2007)

130. M. Mao, Z. L. Dai, and Y. N. Wang, "Two-dimensional self-consistent kinetic model for solenoidal inductively coupled plasma", Plasma Sci. & Technol. 9, 30 (2007)

129. S. Chung, D.J. Mowbray, Z. L. Miskovic, F.O. Goodman, Y. N. Wang, "Dynamic interactions of fast ions with multiwalled carbon nanotubes", Radiation Physics and Chemistry 76, 524 (2007)

128. 张健, 任春生, 齐雪莲, 王友年, "射频感应等离子体的Langmiur探针和光谱诊断", 核聚变与等离子体物理, 27(2), 156 (2007)

127. 侯璐景, 姜克, 王友年, "带电粒子与二维强耦合尘埃等离子体的相互作用", 物理, 36(3), 203 (2007)[4] 

2006

115. Lu-Jing Hou,Z. L. Miskovic,Ke Jiang and You-Nian Wang,“Energy loss of a charged particle moving over a 2D strongly coupled dusty plasma”,Phys. Rev. Letts. 96,255005(2006).

114. Ke Jiang,Lu-Jing Hou,You-Nian Wang and Z. L. Miskovic,“Excitations of Mach cones and energy dissipation by charged particle moving over two-dimensional strongly coupled dusty plasmas”,Phys. Rev. E73 016404 (2006).

113. Da-Peng Zhou,Yuan-Hong Song,You-Nian Wang and Z.L. Miskovic,“Coulomb explosions and stopping of molecular ions channeled through carbon nanotubes”,Phys. Rev. A 73,033202(2006).

112. Zheng-Feng Ding,Long-Wei Chen and You-Nian Wang,“Numerical studies on the transition of tuned substrate self-bias in a radio-frequency inductively coupled plasma”,Phys. Plasmas 13,043504(2006).

111. You-Nian Wang and Lu-Jing Hou,“Rotation of 2D finite dust Coulomb clusters in magnetic field”,Thin Solid Films 506-507,647(2006).

110. Xue-Chun Li and You-Nian Wang,“Investigation of secondary electron emission effects in plasma immersion ion implantation with dielectric substrates”,Thin Solid Films 506-507,307(2006).

109. Ming Mao and You-Nian Wang,“Heating mechanism in one-dimensional bounded magnetized inductively coupled plasma”,Phys Lett. A 359,240(2006).

108. Xiang Xu and You-Nian Wang,“Magnetohydrodynamic Simulation of a Coaxial High-Density Plasma Opening Switch”,IEEE Trans. Plasma Science 34 (No.4),1529 (2006).

107. Li-Hong Wang,Zhong-Ling Dai,and You-Nian Wang,“Investigation of dual radio-frequency driven sheaths and ion distribution bombarding an insulator substrate”,Chin. Phys. Lett. 23,688(2006).

106. Zhong-Ling Dai,and You-Nian Wang,“Characteristics of single and dual radio-frequency (RF) plasma sheaths”,Front. Phys. China 2,178(2006).

105. Wei Jiang,Ming Mao,and You-Nian Wang,“ A time-dependent analytical sheath model for dual frequency capacitively coupled plasma",Phys. Plasma 13,accepted (2006).

2005

104. Da-Peng Zhou,You-Nian Wang,and Z.L. Miskovic,"Dynamic polarization effects in ion channeling through single-wall carbon nanotubes",Phys. Rev. A 72,023202(2005).

103. Yuan-Hong Song,You-Nian Wang,and Z.L. Miskovic,"Vicinage effects in energy loss and electron emission during grazing scattering of heavy molecular ions from a solid surface",Phys. Rev. A 72,012903(2005).

102. Yuan-Hong Song,You-Nian Wang,and Z. L. Miskovic,"Theoretical study of swift molecular ions specularly reflected from solid surfaces under glancing angle of incidence",Nucl. Intsr. & Methods. B 230,158(2005).

101. D. J. Mowbray,Z. L. Miskovic,F.O. Goodman,and You-Nian Wang,"Dynamic interactions of fast ions with carbon nanotubes", Nucl. Intsr. & Methods. B 230,142(2005).

100. Z. L. Miskovic,F. O. Goodman,Yuan-Hong Song,and You-Nian Wang,"Stochastic effects of charge transfer on image interaction and plasmon excitation in ion-surface grazing scattering",Nucl. Intsr. & Methods. B 230,391 (2005).

99.Gui-Qiu Wang,You-Nian Wang,and Z. L. Miskovic,"Coulomb explosion and energy loss of fast C_60 clusters in plasmas",Phys. Plasma,12,042702(2005).

98. Lu-Jing Hou,You-Nian Wang,and Z. L. Miskovic,"Formation and rotation of two-dimensional Coulomb crystals in magnetized complex plasma",Phys. Plasma,12,042104(2005).

97. Ke Jiang,Lu-Jing Hou,and You-Nian Wang,"Interactions of a projectile charge with two-dimensional dusty plasmas",Chinese Phys. Lett. 22,1713(2005).

96. Ming Mao and You-Nian Wang,"Self-consistent kinetic description of the low-pressure solenoidal inductively coupled argon discharge",Plasma Sci. & Techn. 7,2640(2005).

95. Zhen-Qun Guan,Zhong-Ling Dai,and You-Nian Wang,“Simulations of dual rf-biased sheaths and ion energy distributions arriving at a dual rf-biased electrode”,Phys. Plasma,12,123502 (2005)

94. Zheng-Feng Ding,Jing-Chao Sun and You-Nian Wang,“Influences of Discharge Parameters on Tuned Substrate Self-bias in a Radio-frequency Inductively Coupled Plasma”,Plasma Sci. & Techn,7,3117 (2005).

93. Jiu-Li Wang,Gu-Ling Zhang,You-Nian Wang et. al.,“Grid-shadow effects in grid-enhanced plasma source ion implantation”,Surf. Coat. Techn. 92,101 (2005).

92. Li Wei,Shaowen Sun,and You-Nian Wang,“Influence of nonlinear absorption effects on optical bistability in semiconductor ring resonators,Opt. Laser Techn. 37,432(2005).

2004

91. Lu-Jing Hou,You-Nian Wang,and Z. L. Miskovic,"Theoretical study of laser-excited Mach cones in dusty plasmas",Phys. Rev. E 70,056406(2004).

90. Lu-Jing Hou,You-Nian Wang,and Z. L. Miskovic,"Two-dimensional radio-frequency sheath dynamics over a nonflat electrode with perpendicular magnetic field", Phys. Plasmas 11,4456(2004).

89. Lu-Jing Hou,You-Nian Wang,and Z. L. Miskovic,"Two-dimensional fluid simulation of collisional plasma sheath over rf powered electrode with cylindrical hole ",Plasma Sci. & Techn.6,2404(2004).

88. Ding Zhenfeng,Huo Weigang,Wang Younian,"The tuned substrate self-bias in a radio-frequency inductively coupled plasma",Plasma Sci. & Techn. 6,2549(2004)

87. D. J. Mowbray,Z. L. Miskovic,F.O. Goodman,and You-Nian Wang,"Interactions of fast ions with carbon nanotubes: Two-fluid model",Phys. rev. B 70,195418 (2004).

86. L. Wei and You-Nian wang,"Electromagnetic wave propagation in single-wall carbon nanotubes",Phys. Lett. A 333,303(2004).

85. Zhong-Ling Dai and You-Nian Wang,"Simulations of ion transport in a collisional radio-frequency plasma sheath",Phys. Rev. E 69,036403 (2004)

84. Z. F. Ding,L. W. Chen,and You-Nian Wang,"Splitting and mating properties of dispersion curves of wave modes in a cold magnetoplasma-filled cylindrical conducting waveguide",Phys. Plasmas 11,1168 (2004)

83. Gui-Qiu Wang and You-Nian Wang,"Influence of strong laser fields on Coulomb explosions and energy losses of correlated-ion clusters in plasmas",Phys. Plasmas 11,1187 (2004).

82. You-Nian Wang and Z. L. Miskovic,"Interactions of fast ions with carbon nanotubes: self-energy and stopping power",Phys. Rev. A 69,022901 (2004).

81. Hong-Wei Li,You-Nian Wang,and Z. L. Miskovic,"Interactions of fast C_20 clusters with solids: Coulomb explosions,charge states,and energy losses",J. Phys: Condens. Matter 16,1231 (2004).

80. Ming Mao and You-Nian Wang,"Influence of external magnetic field on anomalous skin effects in inductively coupled plasmas",Chinese Phys. Lett. 21,511 (2004).

79. Xue-Chun Li and You-Nian Wang,"Secondary-electron emission effects in plasma immersion ion implantation with dielectric substrates",Chinese Phys. Lett. 21,364 (2004).

78. D. J. Mowbray,Z. L. Miskovic,F.O. Goodman,and You-Nian Wang,"Wake effect in interactions of fast ions with carbon nanotubes",Phys. Lett. A 329,94 (2004).

77. Cun-Sheng Ren,Zong-Xin,You-Nian Wang,and Hung YU,“ Corrosion behavior of TiN films prepared by vacuum ard deposition and nitrogen ion beam dynamic mixing implantation”,Surf. Coat. Techn. 185,210 (2004).

76. Jiang-Liang Zhang,Chang Tan,Wen-Chun Wang,and You-Nian Wang,“A spectroscopic scheme to measure the expansion velocity of ablation plasmas formed by high intensive pulsed ion beam”,Vacuum 73,673 (2004).

75. Wen-Chun Wang,Feng Liu,Jia-Liang Zhang,Yue Liu,and You-Nian Wang,“Study on density distribution of high energy electrons in pulsed corona discharge”,Vacuum 73,333(2004).

74. Jiu-Li Wang,Gu-Ling Zhang,Yuan-Fu Liu,You-Nian Wang et al.,"Influence of ion species ratio on grid-enhanced plasma source ion implantation”,Chinese Phys. 13,65 (2004).

73.王久丽,张谷令,王友年等, “等离子体源离子注入鞘层及鞘层扩展动力学计算方法”,《科学通报》,第49卷,410(2004)。

72. 李雪春,王友年,“介质靶表面的充电效应对等离子体浸没离子注入过程鞘层特性的影响”,《物理学报》Vol.53,No.8 (2004).

71. 芦岩,王友年,“碰撞对非对称射频鞘层特性的影响”,《物理学报》Vol.53,No.8 (2004).

2003-1990

70. Gui-Qiu Wang,You-Nian Wang,and Z. L. Miskovic,"Coulomb explosions and energy loss of molecular ions in plasmas",Phys. Rev. E 68,036405(2003)

69. Yuan-Hong Song,You-Nian Wang,and Z. L. Miskovic,"Kinetic electron emission induced by grazing scattering of heavy ions form metal surfaces",Phys. Rev. A 68,022903 (2003).

68. Lu-Jing Hou,You-Nian Wang,and Z. L. Miskovic,"Induced potential of a dust particle in a collisional radio-frequency sheath",Phys. Rev. E 68,016410 (2003).

67. Z. L. Miskovic,F. O. Goodman,W.-K. Liu,and You-Nian Wang,"Stochastic treatment of nonequilibrium ion stopping in solids",Phys. Rev. A 67,012902 (2003)

66.Zhong-Ling Dai and You-Nian Wang,"Comparison between characteristics of radio-frequency sheaths and pulse sheaths with insulating substrates" Surface and Coatings Technology 165,224 (2003).

65. Lu-Jing Hou and You-Nian Wang,"Theoretical study on nonlinear resonances of a charged micro-particle in RF sheath",Acta Physica Sinica 52,434(2003)[in Chinese].

64. Gui-Qiu Wang and You-Nian Wang,"Influence of laser field on interaction between swift molecular ions and solids",Acta Physica Sinica 52,939(2003)[in Chinese].

63. You-Nian Wang,Lu-Jing Hou,and Xiaogang Wang,"Self consistent nonlinear resonance and hysteresis of a charged micro-particle in a RF sheath",Phys. Rev. Lett. 89,155001 (2002).

62. You-Nian Wang and Z. L. Miskovic,"Energy loss of charged particles moving in cylindrical tubules",Phys. Rev. A 66,042904(2002).

61. Gui-Qiu Wang,You-Nian Wang,and Z. L. Miskovic,"Influence of laser field on Coulomb explosions and stopping power for swift molecular ions with solids",Phys. Rev. A66,042901(2002).

60. Zhong-Ling Dai,You-Nian Wang,and Teng-Cai Ma,"Spatiotemporal characteristics of the collisionless rf sheath and the ion energy distributions arriving at rf-biased electrondes",Phys. Rev. E 65,036403 (2002).

59. Zhong-Ling Dai and You-Nian Wang,“Multiple ion dynamics model for the collisionless rf sheaths and the ion energy distributions at rf-biased electrodes in fluorocarbon plasmas”,Phys. Rev. E 66,026413 (2002).

58. Zhong-Ling Dai and You-Nian Wang,"Dynamic sheath model at pulsed-biased insulating substrates",J. Appl. Phys. 92,6428 (2002).

57. Hong-Wei Li,You-Nian Wang,and Z. L. Miskovic,“Influence of wake-potential asymmetry on charge states and Coulomb explosion of fast molecular ions in solids ”,Nucl. Instr. Methods B193,204(2002).

56. Z. L. Miskovic,W. K. Liu,F. Q. Goodman,and You-Nian Wang,“Spatial distribution of ion charges in fast,partially stripped clusters traversing solid targets”,Nucl. Instr. Methods B193,221(2002).

55. 邱华檀,王友年,马腾才,“碰撞效应对射频偏压电极上离子能量分布和角度分布的影响”,《物理学报》Vol.51,No.6 (2002).

54. 王友年,李宏伟,“尾流效应对快速双原子分子离子在固体中电荷态及分子轴取向的影响”,《物理学报》Vol.51,No.4 (2002).

53. Lu-Jing Hou,You-Nian Wang,and Z. L. Miskovic,“Wake effects on vertical alignment of two dust particles in a rf plasma sheath”,Phys. Lett. A292,129 (2001).

52. Yuan-Hong Song,You-Nian Wang,and Z. L. Miskovic,“Energy loss of heavy ions specularly reflected from surfaces under glancing-angle incidence”,Phys. Rev. A63,052902 (2001).

51. Yuan-Hong Song,You-Nian Wang,and Z. L. Miskovic,“Influence of the laser field on the interaction of energetic ions with solid surface”,Phys. Lett. A285,183(2001).

50. Lu-Jing Hou,You-Nian Wang,and Z. L. Miskovic,“Interaction potential among dust grains in a plasma with ion flow”,Phys. Rev. E64,046406 (2001).

49. Hua-Tan Qiu,You-Nian Wang,and Teng-Cai Ma,“Collisional effects on the radio-frequency sheath dynamics”,J. Appl. Phys. 90,5884 (2001).

48. Z. L. Miskovic,F. Q. Goodman,W. K. Liu,and You-Nian Wang,“Ion-charge distributios in fast,partially stripped clusters passing thin foils”,Phys. Rev. A 64,064901 (2001)。

47. Z. L. Miskovic,S. G. Davison,F. Q. Goodman,W. K. Liu,You-Nian Wang,“Stopping power of fast,partially stripped molecules and clusters: Vicinage effects in charge states”,Phys. Rev. A 63,022901 (2001).

46. 戴忠玲,王友年,马腾才,“射频等离子体鞘层动力学模型”,《物理学报》Vol.50,No.12 (2001).

45. You-Nian Wang,Hua-Tan Qiu,and Z. L. Miskovic,“ Coulomb explosion patterns of fast C60 clusters in solids”,Phys. Rev. Lett. 85,1148 (2000).

44. Xian Meng,You-Nian Wang and Teng-Cai Ma,“Effects of electron emission on steady-state plasma sheaths”,J. Appl. Phys. 88,40 (2000).

43. Z. L. Miskovic,S. G. Davison,F. Q. Goodman,W. K. Liu,and You-Nian Wang,“Vicinage effects on charge states of fast clusters in solids”,Phys. Rev. A 61,062901 (2000).

42. 邱华檀,王友年,“速C60离子团在固体中的库仑爆炸过程I-球壳层模型”,《物理学报》Vol.49,1528 (2000).

41. 邱华檀,王友年,“快速C60离子团在固体中的库仑爆炸过程Ⅱ-分子动力学模拟”,《物理学报》Vol.49,1534 (2000).

40. 孟显,王友年,马腾才,“电子发射对稳态等离子体鞘层影响的理论研究和数值模拟”,《强激光与粒子束》Vol.12,358 (2000).

39. 王友年,“载能分子离子或离子团与固体材料相互作用”,《大连理工大学学报》,Vol.40 ,s12 (2000).

38. You-Nian Wang,Yuan-Hong Song,Z. L. Miskovic and Wing-Ki Liu,“Coulomb explosion patterns for swift hydrogen molecular ions penetrating through solids”,Nucl. Instr. Methods B153,26 (1999).

37. You-Hong Song and You-Nian Wang,“Numerical simulation for H+ ion-surface scattering under grazing incidence”,Nucl. Instr. Methods B153,186 (1999).

36. 王友年,“快速 在固体中穿行时产生的动力学相互作用力及库仑爆炸图形的演化”,《物理学报》Vol.48,No.6(1999).

35. 宋远红,王友年,宫野,“氢离子在固体表面掠角散射及能量损失的数值模拟”,《物理学报》Vol.48,No.7(1999).

34. You-Nian Wang,Z. L. Miskovic and Wing-Ki Liu “Dynamical interaction effects of the Coulomb explosions of at glancing-incidence on solid surfaces”,Phys. Rev. A 58,1287 (1998).

33. Z. L. Miskovic,Wing-Ki Liu and You-Nian Wang,“Self-energy and stopping power of large energetic clusters in solids: Implications to Coulomb explosion”,Phys. Rev. A 57,362 (1998).

32. Z. L. Miskovic,Wing-Ki Liu and You-Nian Wang,“Multiple scattering effects on stopping of large cluster in solid”,Phys. Rev. A 58,2191 (1998)。

31. You-Nian Wang,Xeng-Lu Deng and Teng-Cai Ma,“Dependence of electronic stopping power on incidence angle for fast ions moving near solids surfaces”,Nucl. Instr. Methods B 135,164 (1998)。

30. Yuan-Hong Song and You-Nian Wang,“Effects of ion-nuclues sizes on the electronic stopping power for heavy ions in solids”, Nucl. Instr. Methods B 135,124 (1998).

29. 孟显,王友年,“声子-电子耦合效应对半导体表面感应电势的影响”,《物理学报》Vol.4,1155 (1998).

28. You-Nian Wang and Teng-Cai Ma,“Consistent calculations for the energy loss of slow ions moving in two-dimensional electron gases”, Phys. Rev. A55,2087 (1997).

27. 王友年,马腾才,“载能带电粒子在物质中电子阻止本领研究进展”,《大连理工大学学报》Vol.37,129 (1997).

26. 王友年,“分子离子在金属表面层区域飞行时产生的感应势”,《功能材料与器件学报,第3卷,35 (1997).

25. You-Nian Wang and Teng-Cai Ma,“Bethe stopping theory for fast ions moving through two-dimensional targets: Harmonic oscillator model”,Phys. Lett. A 221,134 (1996).

24. You-Nian Wang and W.-K. Liu,“The energy loss of ions moving near a solid surface”,Phys. Rev. A54,636 (1996).

23. You-Nian Wang and W.-K. Liu,“Wake potential of an ion moving near a solid surface”,Chem. Phys. Lett. A254,122 (1996).

22. 朱武飚,王友年,邓新禄,马腾才,“负偏压射频放电过程的流体力学模拟”,物理学报,第45卷,1138 (1996).

21. Y. N. Wang and T. C. Ma,"Wake potential of a charged in a strongly coupled two-dimensional electron gas " Phys. Rev. B52,16395 (1995).

20. Y. N. Wang and T. C. Ma,"Energy loss for swift ions in a strongly coupled two-dimensional electron gas",Phys. Lett. A 200,319 (1995).

19. Y. N. Wang and T. C. Ma,"Electronic stopping power for hydrogen molecular ions in solids: Influence of inner-shell electrons of target atoms",Phys. Rev. A50,3192(1994).

18. 王友年,马腾才,"低速分子离子在固体电子气中的散射及能量损失",物理学报,第43 卷,979(1994).

17. You-Nian Wang and Teng-Cai Ma,Vicinage effects in stopping power for diatomic molecular ions in solids", Phys. Lett. A178,209 (1993).

16. You-Nian Wang and Teng-Cai Ma,"Numerical evaluation of the stopping power for heavy ions in solids", Nucl. Instr. Meth. B80/81,16 (1993).

15. Tao Cui,You-Nian Wang and Teng-Cai Ma,"A fitted expression of electronic stopping power for protons in solids",Nucl. Instr. Meth . B73,123 (1993).

14. You-Nian Wang and Teng-Cai Ma,“Electronic stopping power for heavy ions in hot targets”,Phys. Rev. B47,5597 (1993).

13. You-Nian Wang,Tao Cui,and Teng-Cai Ma,“Electronic stopping power for energetic protons in solids in the low and intermediate-energy regions,J. Appl. Phys. 73⑼,4275 (1993).

12. Wei-Dong Shi,Xue-Ya Wen,Che-Sheng Ren,and You-Nian Wang,“Study of surface modification of WC-Co alloy by nitrogen”,Nucl. Instr. Meth. B80/81,229 (1993).

11. 王友年,马腾才,“Electronic stopping power of intermediate- velocity heavy ions in solids”,Chinese Sci Bul. Vol. 38, 994. (1993).

10. 王友年,马腾才,“重离子束在等离子体中的能量损失”,《强激光与粒子束》 Vol.4,No.4 (1993).

9. 王友年,马腾才,“低速离子在固体电子气中的慢化-相移和阻止本领的计算”,《大连理工大学学报》 Vol.33,105(1993).

8.Teng-Cai Ma,You-Nian Wang,and T. Cui,“Numerical evaluation of the stopping power for a proton in strongly coupled electron gas”,J. Appl. Phys. 72⑻,3838 (1992).

7. You-Nian Wang and Teng-Cai Ma,“Z1 Oscillation in electronic stopping power for slow ions”,Phys. Lett. A167,287 (1992).

6. 王友年,马腾才,宫野,“重离子在热靶中的电子阻止本领及有效电荷数”,《物理学报》Vol.42,631 (1992).

5. 王友年,马腾才,“中等速度的重离子在固体中的电子阻止本领”,《科学通报》,第23期,2130 (1992).

4. 王友年,安世民,“激光束辐照下金属材料表面合金化过程中的热传输问题”,《强激光与粒子束》Vol.3,No.4(1992).

3. You-Nian Wang and Teng-Cai Ma,“Electronic stopping Power for slow atoms in solids”,Phys. Rev. A44,1768 (1991).

2. 王友年,马腾才,“强耦合简并电子气中离子的阻止本领和能量偏离的计算”,《计算物理》 Vol.7,235(1990).

1. You-Nian Wang and Teng-Cai Ma,“Stopping power and energy loss straggling of slow proton in a strongly coupled degenerate electron gas”,Nucl. Instr. & Methods B51,216 (1990).

所获奖项:

1. 国家教委科技进步三等奖“带电粒子在固体中能量损失的理论研究”,1996年(第一获奖人)。

2. 辽宁省教委科技进步一等奖“低温等离子体物理过程的理论研究”,1996年(第二获奖人)。

3. 辽宁省自然科学二等奖“低温等离子体鞘层特性及鞘层与固体表面相互作用的研究”,2001年(第二获奖人)。

其他荣誉奖励:2003年荣获全国“五一”劳动奖章 1994年被评为“大连市劳动模范”; 1995年被评为“辽宁省劳动模范”; 1995年被评为“辽宁省优秀科技工作者”; 1998年被列入辽宁省“百人培养计划”; 2000年享受国家特殊津贴待遇; 2001被评为“辽宁省青年学术带头人”。

 

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王友年 长江学者 大连理工大学 千人智库

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