基本信息
董国艳  女  硕导  光电学院
电子邮件: gydong@ucas.ac.cn
通信地址: 北京市石景山区玉泉路19号(甲)
邮政编码: 100049

研究领域

光子晶体,超常电磁材料


招生信息

招生专业:光学工程(一级学科)
招生方向:光子晶体及其光学器件,超常电磁介质

本研究领域属于光学与材料的交叉学科领域,期待具有物理和光学专业背景,对软件计算和模拟感兴趣的成员加入。

招生专业
080300-光学工程

教育背景

2004-09--2009-06   山东大学信息学院   工学博士
1992-09--1996-06   山东大学光学系   理学学士

工作经历

2013 — 今:中国科学院大学,副教授
2011 — 2013:清华大学,博士后
2009 — 2011:山东建筑大学,讲师

承担项目

国家国家自然科学基金面上项目(11574311);

国家自然科学青年基金项目(  51102148);

企业横向研发项目;

中国科学院校长基金项目( Y35102DN00).

山东省自然科学基金面上项目(ZR2010AM025);

中国博士后科研基金资助,面上项目(20110490345);

中国博士后科研基金特别资助(2012T50087);

科技部863计划项目“超材料及其相关器件关键技术研发”子课题(2012AA030403);

国家自然面上项目(基于稀土离子电磁偶极跃迁的光频超常介质研究,11274198)。

发表论文

1. G. Y. Dong*, Z. F. Li et.al. Precise displacement measurement in single beam interferometry employing photonic metamaterial with effective zero-index. Optics express  25, 031509 (2017).
2. Z. F. Li, G. Y. Dong*, X. L. Yang, X. F. Meng and K. Bi, Effective method to identify and verify the Dirac-like point through finite photonic crystals with triangular lattice, Europhysics Letters, 1181, 4003 (2017).
3. Guoyan Dong*, Ji Zhou, Xiulun Yang & Xiangfeng Meng,Precise identification of Dirac-like point through a finite photonic crystal square matrix, Scientific Reports 6, 36712(2016)
4. 董国艳*, 传导系统中TE/TM偏振模态的辨析, 中国科学院大学学报,  33(3) 347-353 (2016).
5. Ke Bi, Wenjun Liu, Yunsheng Guo, Guoyan Dong & Ming Lei,Magnetically tunable broadband transmission through a single small aperture,Scientific Reports, 5:12489 (2015)
6. 董国艳*,毕科,周济, “具有零相移传输性质的超材料研究,” 中国科学: 物理学 力学 天文学,44(2), 1-11 (2014).
7. Dong Guoyan, “Metamaterials with zero phase delay,” Advanced Materials Research 873, 465-470 (2014).
8. G. Y. Dong, J. Zhou, “Zero phase delay induced by wavefront modulation in photonic crystals” Physical Review B 87, 125107 (2013).
9. Guoyan Dong, Ke Bi, Ji Zhou, et al. “Experimental demonstration in X-band of dual-negative refraction in photonic crystals,” Europhysics Letters 104, 34003 (2013).
10. Guoyan Dong, Ke Bi, Ji Zhou, et al. “Zero phase delay with relax incident condition in photonic crystals,” Optics Express 21, 29860–29866 (2013).
11. G. Y. Dong, J. Zhou, “Modulation of Optical Transmission in Photonic Crystal” Key Engineering Materials 538, 42-45 (2013).
12. G. Y. Dong, J. Zhou, “Anomalous optical transmission phenomena in photonic crystals” Applied Mechanics and Materials 320, 128-132(2013).
13. Dong Guoyan, Yang Xiulun and Meng Xiangfeng, “A novel method to realize zero phase delay of electromagnetic wave” Advanced Materials Research 760-762, 315-319 (2013).
14. Dong Guoyan, Zhou Ji, “Anomalous Refractions Based on Photonic Band Modulation of Photonic Crystals” Advanced Materials Research 750-752, 881-884 (2013).
15. Ke Bi, Guoyan Dong, Xiaojian Fu,Ji Zhou,Ferrite based metamaterials with thermo-tunable negativerefractive index,Applied Physics Letters, 103, 131915 (2013)
16. BI Ke, DONG GuoYan, PAN DeAn、Zhou Ji,“Magnetoelectric cylindrical layered composite structure with multi-resonance frequencies,” SCIENCE CHINA: Technological Sciences, 56, 2572-2575 (2013).
17. G. Y. Dong, J. Zhou, X. L. Yang and X. F. Meng, “Multi-refraction with same polarization state in two dimensional triangular photonic crystals,” Progress In Electromagnetics Research 128, 91 (2012).
18. G. Y. Dong*, X. L. Yang, L. Z. Cai, “Transmission Properties of an Air Waveguide with Left-handed Holographic Photonic Crystal Cladding” Chinese Physics Letter 28, 014210 (2011).
19. G. Y. Dong*, J. Zhou, X. L. Yang, L. Z. Cai, “Dual negative refraction in photonic crystals with hexagonal lattices” Optics Express 19, 12119-12124 (2011).
20. G. Y. Dong*, X. L. Yang, L. Z. Cai, “Anomalous refractive effects in honeycomb lattice photonic crystals formed by holographic lithography” Optics Express 18, 16302 (2010).
21. G. Y. Dong, X. L. Yang, L. Z. Cai et al, “6-fold hybrid photonic crystal formed holographically with full band gap for low refractive index” Europhysics Letters 80 14006 (2008).
22. G. Y. Dong, X. L. Yang, L. Z. Cai et al, “Improvement of transmission properties through two-bend resonance by holographic design for a two-dimemsional photonic crystal waveguide” Optics Express 16, 15375-15381 (2008).
23. G. Y. Dong, X. L. Yang, L. Z. Cai et al, “Band gap analysis and holographic design of 3-fold hybrid triangular photonic crystals of irregular columns with large full band gaps” J. Opt. A: Pure Appl. Opt. 9 531–536 (2007).
24. G. Y. Dong, X. L. Yang, L. Z. Cai et al, “Photonic band gap properties of 6-fold hybrid triangular photonic crystals formed by holographic lithography” J. Phys. D: Appl. Phys. 40 4761-4766 (2007).
25. G. Y. Dong, L. Z. Cai, X. L. Yang, X. X. Shen, X. F. Meng, X. F. Xu and Y. R. Wang, “Analysis of structure and band gap evolution of photonic crystals formed holographically by symmetric umbrella configuration with varying apex angles,” Journal of Physics D: Applied Physics 39,3566-3570 (2006).
26. G. Y. Dong, L. Z. Cai, X. L. Yang, X. X. Shen, X. F. Meng, X. F. Xu and Y. R. Wang,” Holographic design and band gap evolution of photonic crystals formed with five-beam symmetric umbrella configuration,” Optics Express 14, 8096-7102 (2006).
27.  L. Z. Cai, G. Y. Dong, C. S. Feng, X. L. Yang, X. X. Shen and X. F. Meng, “Holographic design of a two-dimensional photonic crystal of square lattice with a large two-dimensional complete bandgap,” Journal of Optical Society of America B 23, 1708-1711 (2006).