电子邮箱:

iexhsun[at]zzu.edu.cn（请将[at]换成@）

办公室:

科研楼415

研究方向:

微纳结构光电材料与器件、光通信与光传感

教育背景

2000/02-2003/01, 中国科学技术大学, 物理系, 博士

1994/09-1997/07, 中科院安徽光学精密机械研究所, 光学, 硕士

1990/09-1994/07, 河南大学, 物理系, 学士

工作经历

Ø  2022/02-至今, 郑州大学, 电气与信息工程学院, 教授

Ø    2019/12-2020/01, 澳大利亚新南威尔士大学, 电气工程与通信学院, 高级访问学者

Ø    2015/09-2016/03, 澳大利亚伍伦贡大学, 工程与信息科学学院, 访问学者

Ø    2008/08-2022/01, 郑州大学, 信息工程学院, 教授

Ø    2008/03-2009/02, 香港理工大学, 纺织制衣学系纳米科技中心, 研究员

Ø    2003/09-2008/02, 香港理工大学, 纺织制衣学系纳米科技中心, 博士后

Ø    2000/02-2003/09, 中国科学技术大学, 物理系, 讲师

Ø    1997/07-2000/01, 中国科学技术大学, 物理系, 助教

科研项目

Ø    河南省重大科技专项，161100210200，2016/06-2020/05

Ø    中国科学技术大学火灾科学国家重点实验室开放基金，HZ2016-KF01，2016/02-2018/01

Ø    河南省科技厅基础前沿项目，152300410023，2016/01-2017/12

Ø    国家自然科学基金项目，11104251，2012/01-2014/12

Ø    河南省高校青年骨干教师资助计划，2009GGJS-02，2010/01-2012/12

Ø    河南省科技厅基础前沿项目，082300463202，2009/01-2011/12

代表论著

著作 1）Generalized Dynamics of Soft-Matter   Quasicrystals, Springer, 2022

    2010年以来，郑州大学为第一作者单位、一作和通信作者三类高质量论文：

[1]   Sun X.H.^*, Zhang X.R., Liu   K.P., Qi Y.L., Composite photonic structures based on multi-beam double-cone   interference, Optical Materials, 2022, 124: 112015(1-9)

[2]   Chen D.L., Wang Z.,   Zeng Y., Zhang X.R., Sun   X.H.^*,   Preparation of Graded Photonic Structure by using multi-beam interfering   method based on dual-parameter hexagonal prism, Physics Letters A, 2022, 432:   128020(1-5)

[3]   Wang Z., Xue Q., Zhao   S.L., Zhang X.R., Liu H.M., Sun X.H.^*, Study on the characteristics of   a photonic crystal sensor with rectangular lattice based on bound states in   the continuum, J. Phys. D: Appl. Phys. 2022, 55: 175706(1-5)

[4]   Wang J.J., Chen D.L.,   Wang Z., Xue Q., Sun   X.H.^*,   Focusing enhanced broadband metalens via height optimization, OPTOELECTRONICS   LETTERS, 2022, 18(2): 73-76

[5]   Chen D.L., Zeng H.N.,   Qi Y.L., Liu H.M., Xue Q., Sun X.H.^*, Single-layer all-dielectric   quarter-wave plate and half-wave plate metasurfaces for polarization   conversion in the visible light region, Optical Engineering, 2022, 61(2):   025104(1-13)

[6]   Wang Z., Chen D.L.,   Yang X.C., Liang S.X., Sun   X.H.^*,   Temperature sensor of single-mode-no-core-single-mode fiber structure coated   with PDMS, Optical Fiber Technology, 2022, 68: 102793(1-5)

[7]   Chen D.L., Sun X.H.^*, Wang S.M., Qi Y.L.,   Wang S., Wang J.J., Design of dielectric deflecting metasurface and metalens   in the visible-light range, Optical Engineering, 2021, 60(3): 035104(1-11)

[8]   Qi Y.L., Liu K.P.,   Wang S., Chen D.L., Sun   X.H.^*,   Focusing characteristics of graded photonic crystal waveguide lens based on   interference lithography, Optical Engineering, 2021, 60(7): 077102(1-9)

[9]   Chen D.L., Wang J.J.,   Wang S., Zhao S.L., Qi Y.L., Sun X.H.^*, The bifocal metalenses for   independent focusing of orthogonally circularly polarized light, J. Phys. D:   Appl. Phys. 2021, 54: 075103(1-8)

[10]   Chen D.L., Wang J. J., Qi   Y. L., Wang S.M., Xue Q., Sun   X.H.^*,   Polarization-insensitive dielectric metalenses with different numerical   apertures and off-axis focusing characteristics, Journal of The Optical   Society of America B, 2020, 37(12): 3588-3595

[11]   Wang   S.M.,   Sun X.H.^*, Chen D.L., Wang S., Qi Y.   L., Wu F., The investigation of height-dependent meta-lens and focusing   properties, Optics Communications, 2020, 460: 125129 (1-6)

[12]  Wang   S.M., Sun   X.H.^*, Chen D.L., Wu F.,GaP-Based   High-Efficiency Elliptical Cylinder Metasurface in Visible Light, Chinese   Physics Letters, 2020, 37: 057801(1-4)

[13] Wang   S., Sun   X.H.^*,   Luo Y.H., Peng G.D., Surface plasmon resonance sensor based on D-shaped Hi-Bi   photonic crystal fiber, Optics Communications, 2020, 467: 125675 (1-6)

[14]  孙晓红^*，武凡，王帅蒙，齐勇乐，曾勇，利用双参数六角棱镜干涉法设计渐变光子晶体透镜阵列，光学学报，2020，40（2）：0222002（1-6）

[15]武凡，孙晓红^*，曾勇，王帅蒙，齐勇乐，双周期渐变光子晶体结构及其纳米聚焦效应，中国激光，2020，47（1）：0113001（1-6）

[16] Xi   X.Y., Sun X.H.^*, Photonic bandgap   properties of two-dimensional photonic quasicrystals with multiple complex   structures, Superlattices and Microstructures 2019,129: 247–251

[17]   Qi   Y.L., Sun X.H.^*, Wang S., Chen D.L.,   Wu F., Wang S.M., Design of double‑period graded photonic structure by   multi‑fiber interferometer, Applied Physics B, 2019, 125:178

[18]  Wang   S., Sun X.H.^*, Ding M., Peng G.D., Qi Y.L., The   investigation of an LSPR refractive index sensor based on periodic gold   nanorings array, Journal of Physics D: Applied Physics, 2018，51：0451011-0451017

[19]  Qi   Y.L., Sun X.H.^*, Wang S., Li W.Y.,   Wang Z.Y., Design of an Electrically Tunable Micro-Lens Based on Graded   Photonic Crystal，Crystals，2018，8：3031-3038

[20]    Ren   J., Sun X.H.^*, Wang S., A low threshold nanocavity in a   two-dimensional 12-fold photonic quasicrystal, Optics and Laser Technology,   2018, 101：42-48

[21]  Wang   Y.P., Sun X.H.^*, Xue Q., et al, The study of the   Raman-based optical fiber-folded distributed temperature sensing system with   simplex code, Optics Communications, 2018, 420: 200-204

[22]  Ren   J., Sun X.H.^*, Wang S., A narrowband filter based on 2D   8-fold photonic quasicrystal, Superlattices and Microstructures, 2018, 116:   221-226

[23]   Sun   X.H.^*, Wang H., Liu B., Yu   Y.G., Measurement of microsurface topography using a self-mixing optical   configuration, Optical Engineering, 2018, 57(5): 051503

[24] Wang   Z, Sun X.H.^*, Xue Q., Wang Y.L., Qi Y.L., Wang X.S.,   An optical fiber-folded distributed temperature sensor based on Raman   backscattering, Optics and Laser Technology, 2017, 93: 224-227

[25]Wang   S., Sun X.H.^*, Wang C., Peng G.D., Qi Y.L., Wang X.S.,   Liquid refractive index sensor based on a 2D 10-fold photonic quasicrystal，Journal   of Physics D: Applied Physics, 2017, 50: 365102 (1-6)

[26] Liu   W., Sun X.H.^*, Fan Q.B., Wang S., Qi   Y.L., The investigation of multi-channel splitters and big-bend waveguides   based on 2D sunflower-typed photonic crystals, Superlattices and   Microstructures, 2016, 100: 1291-1295  

[27]  Liu   W., Sun X.H.^*, Gao M.L., Wang S., Luneburg and flat   lens based on graded photonic crystal, Optics Communications, 2016, 364: 225-232

[28]Wang   S, Sun X.H.^*, Li W.Y., Liu W, Jiang L., Han J., Fabrication   of photonic quasicrystalline structures in the sub-micrometer scale,   Superlattices and Microstructures, 2016, 93:122-127

[29] Sun   X.H.^*,   Wang S., Liu W., Jiang L.D., A simple configuration for fabrication of    2D and 3D photonic quasicrystals with complex structures, Optics   Communications, 2016，369：138-144

[30]   Sun   X.H.^*,   Liu W.Y., Liu W, Zhang X, Optical design and fabrication of ten-fold photonic   quasicrystal structure, AIP Advances, 2015, 5, 0571081-0571084

[31] Sun   X.H.^*,   Wu Y.L., Liu W., Hao Y., Jiang L.D.，Luneburg lens composed   of sunflower-type graded photonic Crystals，Optics   Communications, 2014, 315: 367-373

[32]  Sun   X.H.^*,   Liu W, Wang G.L., Tao X.M., Optics design of a top-cut prism interferometer   for holographic photonic quasi-crystals, Optics Communications, 2012,, 285:   4593-4598

[33]  Sun   X.H.^*,   Tao X.M., Switchable photonic crystal for polymer dispersed liquid crystal,   Optics and Laser Technology, 2011, 43: 820-824

[34]Sun   X.H.^*,   Tao X.M., Wang Y.Y., Various photonic crystal structures fabricated by using   a top-cut hexagonal prism, Applied Physics A, 2010, 98(2): 255-261

发明专利

[1] 孙晓红，有缺陷准晶光子晶体的制作方法及其装置，ZL201210214219.2，2017年3月

[2] Xiaoming   Tao, Xiaohong   Sun, 1D   and 2D Composite Lenticular Films and Fabrication Methods, Nov. 17，2009，美国专利，专利号US7619823B2

[3]Xiaoming   Tao, Xiaohong   Sun, Jianguo   Deng, Kai-cheong Kwan, laser emitting material, method for making the same   and use thereof, Mar. 22,, 2011，美国专利，专利号US7912108B2

[4]   Xiaoming   Tao, W Zheng, Xiaohong   Sun,   Guangfeng Wang, ChiYuan Hui, Fiber Strain Sensor and Measurement System for   Repeated Large Deformation, Oct.2, 2012，美国专利，专利号US8276462B2

其它信息

主持、承担国家自然科学基金、河南省重大科技专项等项目10余项。主要研究方向：周期准周期光子晶体结构及器件、超表面与超材料、新型光传感及光通信器件、可见光通信及定位技术等。获批了三项美国发明专利和多项中国专利。与香港理工大学合作研究成果“光纤传感器（O-breath─用于核磁力共振的呼吸监察系统）”获得德国纽伦堡市举行的第六十二届国际发明展银奖。2011年评为博士生导师，指导的博、硕士研究生获得国家奖学金7人次，1人获得河南省优秀硕士论文。