个人简介
2005. 9-2009. 7 佳木斯大学物理系 本科
2009. 9-2011. 7 哈尔滨工业大学理学院 硕士
2011. 9-2015.7 哈尔滨工业大学理学院 博士
2015.8- 至今 太原理工大学物理与光电工程学院 讲师
荣誉与奖励
获得2014年哈尔滨工业大学博士研究生国家奖学金
研究领域
一、材料的三阶光学非线性
探究强光与非线性介质相互作用的物理机制以及应用基础。主要研究内容:利用Z-scan技术与4f相位相干成像技术探测有机溶液,半导体薄膜以及纳米粒子在不同脉宽不同波段下的三阶光学非线性与光学非线性动力学特性。
二、圆柱矢量光束的紧聚焦特性
基于矢量衍射理论,利用圆柱矢量光束的偏振轴对称性与特殊的矢量特性,在高数值孔径物镜聚焦系统下可形成超分辨的纵/横向偏振光针,三维超分辨的纵/横向光斑以及周期性的光势阱等丰富的光场聚焦结构。进一步根据均匀磁光介质的逆法拉第效应,利用圆柱矢量涡旋光束与磁光介质的相互作用可实现光诱导的超分辨纵向磁针,光诱导的超分辨球形磁斑以及光诱导的亚波长纵向磁链等丰富的磁化场结构。
近期论文
查看导师新发文章
(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. Zhongquan Nie, and Yinglin Song et al “Investigation of the third-order nonlinear refraction using 4f coherent imaging system with positive-negative bar phase objects”. Opt. Laser Eng. 50, 1405-1409 (2012)
2. Zhongquan Nie, and Yinglin Song et al “Symmetrical positive-negative a
nnular phase object for optical nonlinearity characterization”. Phys. Lett. A 378, 131-138 (2014).
3. Zhongquan Nie, and Yinglin Song et al “Measurement of nonlinear refraction of thick samples using nonlinear-imaging technique with a phase object.” Opt. Laser Technol. 59, 36-42 (2014).
4. Zhongquan Nie, and Yinglin Song et al “Generation of super-resolution longitudinally polarized beam with ultra-long depth of focus using radially polarized hollow Gausssian beam.” Opt. Commun. 331, 87-93 (2014).
5. Zhongquan Nie, and Yinglin Song et al “Generation of a sub-wavelength faocal spot with a long transversally polarized optical needle uisng a double-ring-shaped azimuthally polarized beam.” Opt. Laser Eng. 59, 93-97 (2014).
6. Zhongquan Nie, and Yinglin Song et al “Formation of a sub-wavelength longitudinally polarized beam using a radially polarized controllable dark-hollow beam.” J. Mod. Optic 62, 67-74 (2015).
7. Zhongquan Nie, and Yinglin Song et al “Spherical and sub-wavelength longitudinal magnetization generated by 4π tightly focusing radially polarized vortex beams.” Opt. Express 23, 690-701 (2015).
8. Zhongquan Nie, and Yinglin Song et al “Tightly focusing of a radially polarized Laguerre-Bessel-Gaussian beam and its application to manipulation of two types of particles.” Phys. Lett. A 379, 857-863 (2015).
9. Zhongquan Nie, Guang Shi and Yinglin Song et al “creation and manipulation of three-dimensional super-resolution transversally polarized focal spot in a 4π focusing system.” J. Opt. 5, 055605 (2015).
10. Zhongquan Nie, Weiqiang Ding and Yinglin Song et al “Achievement and steering of light-induced sub-wavelength longitudinal magnetization chain.” Opt. Express 23, 21296-21305 (2015)