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博士生导师

学术成就

发布日期:2018年03月30日

  国内率先建立了一套基于密度泛函理论非绝热电子-离子耦合的原子碰撞动力学模型程序[核物理评论 19 (2002) 157、Journal of Chemical Physics 134 (2011) 154308];系统地研究了原子碰撞过程中电荷转移机理。国际上率先提出了从电子密度中提取体系态分辨信息的方法[Journal of Chemical Physics 139 (2013) 094108、Journal of Chemical Physics 145 (2016) 114104];当前,人们通过精密调控飞秒激光脉冲与物质相互作用物理过程,既能获得具有特定多维度(偏振、位相、频率、振幅、脉宽及模场等)时空结构的新型光场,又能获得具有特定物性(光、电、磁等)的新型物质状态,从中发现一系列新现象与新效应,并开发出相应的原创技术,为其在物理、信息处理与通讯、材料、化学与生命等研究及应用中提供基础性和前瞻性的科学技术储备。少周期超短飞秒激光脉冲具有超强、超快和时空波形灵活可控的特性,为开展“新型光场调控物理及应用”研究提供了有力的工具:超强特性使其可以深刻非线性地调控材料的(光、电、磁等)属性;超快特性使其可以非热、相干、精准地调控材料的(光、电、磁等)属性。我们的研究工作表明,少周期超短飞秒激光脉冲可以无损、可逆地瞬时动态调控宽带隙透明材料(金刚石、氮化硼、碳化硅)的介电函数,使其显示极强的各向异性,并在特定的频段出现双曲色散特性,为纳米尺度的局域光聚焦、成像、传输与操控,以及全光调制和全光整形技术等研究及应用提供材料和物理基础。

  代表性论文:

  【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.

  招生信息

  每年拟招收博士生和硕士生1~2名。

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