王锋 - 北京理工大学

个人简介

个人简历 1996/9–2001/6，中国科学院近代物理研究所，粒子物理与原子核物理，博士； 1992/9–1996/6，西北大学，理论物理，学士；工作经历 2015/12-至今，北京理工大学，物理学院，副教授 2014/12-2015/11，法国勒芒大学，物理系，访问学者 2011/11-2014/11，北京理工大学，机械与车辆学院，副教授 2010/10-2011/10，韩国浦项科技大学，化学系，研究员 2003/8-2010/9，北京理工大学，理学院物理系，副教授 2001/9-2003/6，清华大学，原子分子纳米科学研究中心，博士后

研究领域

从事含时密度泛函理论方法发展及其应用于原子碰撞和光与物质相互作用方面的研究。研究方向包括：（1）密度泛函理论发展及其在原子碰撞模型中的应用；（2）超短激光调控材料瞬时局部特性机理研究；（3）含能材料设计与性能预估；（4）纳米摩擦电荷转移机理研究。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

【1】Xiaoqin Zhang, Feng Wang*, Xiaoli Wang and Lan Jiang (2019): Controlling anisotropy of dielectrics by an ultrashort double-pulse laser, J. Phys. D: Appl. Phys. 52, 035106. 　　【2】Xiaoshuang Kong, Feng Wang*, Xiaoqin Zhang, Zehui Liu, and Xiaoli Wang (2018): Dielectric properties of cubic boron nitride modulated by an ultrashort laser pulse, Physical Review A 98, 053439. 　　【3】Xiaoqin Zhang, Feng Wang*, Fengshou Zhang, and Yugui Yao (2018): Control of the hyperbolic dispersion of dielectrics by an ultrashort laser pulse, Physical Review B 97, 014310. 　　【4】Chang-Kai Li, Feng Wang, Bin Liao, Xiao-Ping OuYang, and Feng-Shou Zhang* (2017): Ab initio electronic stopping power and threshold effect of channeled slow light ions in HfO2, Physical Review B 96, 094301. 　　【5】Chang-kai Li, Fei Mao, Feng Wang, Yan-long Fu, Xiao-ping Ouyang, and Feng-Shou Zhang* (2017): Electronic stopping power of slow-light channeling ions in ZnTe from first principles, Physical Review A 95, 052706. 　　【6】Xiaoqin Zhang, Feng Wang*, Lan Jiang, and Yugui Yao (2017): Manipulation of the dielectric properties of diamond by an ultrashort laser pulse, Physical Review B 95, 184301. 　　【7】Feng Wang*, Yugui Yao, Florent Calvayrac, and Fengshou Zhang (2016): Extraction of state-resolved information from systems with a fractional number of electrons within the framework of time-dependent density functional theory, Journal of Chemical Physics 145, 114104. 　　【8】Xuhai Hong, Feng Wang, Yong Wu*, Bingcong Gou, and Jianguo Wang (2016): H+-H2O collisions studied by time-dependent density-functional theory combined with the molecular dynamics method, Physical Review A 93, 062706. 　　【9】Cong-Zhang Gao, Jing Wang, Feng Wang, and Feng-Shou Zhang* (2014): Theoretical study on collision dynamics of H+ + CH4 at low energies, Journal of Chemical Physics 140, 054308-1-12. 　　【10】Feng Wang*, Lan Jiang, Xuhai Hong, Yalong Jiao, Jianguo Wang, and Fengshou Zhang (2013): An effective method for state population within time-dependent density functional theory, Journal of Chemical Physics 139, 094108. 　　【11】Xuhai Hong, Feng Wang*, Yalong Jiao, Wenyong Su, Jianguo Wang, and Bingcong Gou (2013): Theoretical investigation of the electron capture and loss processes in the collisions of He2+ + Ne, Journal of Chemical Physics 139, 084321. 　　【12】C. L. Zhang, H. X. Hong, F. Wang, Y. Wu, and J. G. Wang* (2013): Theoretical investigation of He2+-Ar collisions in the energy range of 4–300 keV/amu, Physical Review A 87, 032711. 　　【13】Feng Wang*, Xuhai Hong, Jian Wang, Kwang S. Kim* (2011): Coordinate space translation technique for simulation of electronic process in the ion–atom collision, Journal of Chemical Physics 134, 154308.