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分类:导师信息 来源:中国完美·体育(中国)官方网站,WANMEI SPORTS网 2015-09-07 相关院校:北京工业大学
王大勇,教授/博士生导师
北京工业大学应用数理学院
北京市朝阳区平乐园100号,邮编:100124
办公室:数理楼2213-7
Email:wdyong@bjut.edu.cn
电话:010-67392084、67391741
研究领域
在实时光电混合信息处理、光学全息、数字全息、光通信、模式识别及空间光调制器等研究领域均做出显著成绩,在国内外刊物和学术会议上发表了SCI和EI检索论文100余篇,2007年入选北京市属高校拔尖创新人才计划;近年来对数字全息显微成像、太赫兹成像、高分辨率光学成像、微波光子学、体全息存储的方法和应用系统有较深入研究。
招生方向
每年招收硕士研究生2名,博士研究生1-2名,博士后合作者1-2名
光学、光电子、应用物理学、光学工程等相关专业背景的学生
学科代码及名称:0702 物理学、0803 光学工程
教育经历
1989.9-1994.6中国科学院西安光机所光学博士
博士学位论文:光电混合相关识别的基本理论和实验研究
导师:薛鸣球院士,李育林研究员
1986.9-1989.6华中理工大学光学工程系工学学士
教学科研工作经历
2006.12-2007.11国家留学基金委公派在德国斯图加特大学技术光学研究所(Stuttgart University)访问学者
1998.8-2000.8应邀到以色列魏茨曼科学研究院(Weizman Institute of Science)做博士后,从事多波长光学处理系统方面的研究
1996.7-至今北京工业大学应用数理学院2000年7月被评为教授,2002年2月被评为博士生导师
1994.6-1996.6西安电子科技大学电子工程系博士后
1996年6月被评为副教授
课题项目
2015-2018年国家自然科学基金面上项目“连续太赫兹波数字全息生物样品成像方法研究”(No. 61475011)
2011-2013年国家自然科学基金面上项目“生物活细胞的无损定量数字全息显微成像方法研究”(No. 61077004)
2006-2008年国家自然科学基金面上项目“光学稀疏孔径直接成像系统关键技术研究”(No. 60577029)
2011-2014年北京市自然科学基金面上项目“微纳结构相衬成像的超分辨率多波长数字全息显微方法研究”(No. 1122004)
2009-2011年北京市教育委员会科技计划重点项目和北京市自然科学基金项目“生物样品显微成像的数字全息方法研究”
2007-2009年 北京市自然科学基金重点项目“采用光致聚合物材料的海量全息信息存储技术研究”(No.4071001)
2004-2006年北京市自然科学基金项目“三维全息密集光波分复用技术的研究”(No.4042010)
1998-2002年国防科研预研基金项目“晶体存储器固定技术研究”
1997-2001年北京市科技新星项目“采用体全息存储的图像识别系统研究”
学术活动
美国光学学会(OSA)会员,国际光学工程学会(SPIE)会员,中国光学学会全息与光信息处理专业委员会委员,中国光学学会光电技术专业委员会常委,中国仪器仪表学会光机电一体化专业委员会理事,高等学校光学教学研究会常务理事,中关村光电产业协会副理事长。
是下列刊物的审稿人:Optics Letters,Optics Express,Applied Optics,Optics Communications,Optics and Lasers in Engineering,Optical Engineering,Journal of Optics,Chinese Optics Letters,Chinese Physics B, 物理学报,中国激光,光学学报,光子学报,强激光与粒子束,光学精密工程,激光与光电子学进展
代表性学术成果
1.Lu Rong, Tatiana Latychevskaia, Chunhai Chen, Dayong Wang, et al., “Terahertz in-line digital holography of human hepatocellular carcinoma tissue,” Scientific Reports, 5: 08445 (2015).
2.Haochong Huang, Dayong Wang, Lu Rong, et al., “Application of autofocusing methods in continuous-wave terahertz inline digital holography,”Optics Communications, 346(1): 93-98 (2015).
3.Qiaowen Lin, Dayong Wang, Yunxin Wang, et al., “Super-resolution imaging in digital holography by using dynamic grating with a spatial light modulator,” Optics and Lasers in Engineering, 66: 279–284 (2015).
4.Spozmai Panezai, Dayong Wang, Jie Zhao, et al., “Dual-plane in-line digital holography based on liquid crystal on silicon spatial light modulator,” Applied Optics, 53(27): G105-G110 (2014).
5.Lu Rong, Tatiana Latychevskaia, Dayong Wang, et al., “Terahertz in-line digital holography of dragonfly hindwing: amplitude and phase reconstruction at enhanced resolution by extrapolation” Optics Express, 22(14): 17236 (2014).
6.Dengcai Yang, Zuoyun Yang, Dayong Wang, “Laser-phased- beam steering controlled by lithium,”Optical Engineering, 53(6): 061605 (2014).
7.Y. Wang, D. Wang, Y. Zhang, et al., “Pure-optical quadratic phase compensation in image-plane digital holographic microscopy,” Journal of Optics, 43(2): 130-136 (2014).
8.Wei Song, Shiquan Tao, Qianli Zhai, Dayong Wang, et al., “Implementation of uniform diffraction efficiency of partially-overlapping holograms in photopolymers based on the photopolymerization of free radical,” Optical Engineering, 52(4): 045801 (2013).
9.Yunxin Wang, Yishu Yang, Dayong Wang, et al., “Morphological measurement of living cells in methanol with digital holographic microscopy,” Computational and Mathematical Methods in Medicine, 2013: 1-7 (2013).
10.Yunxin Wang, Puhui Meng, Dayong Wang, et al., “Speckle noise suppression in digital holography by angular diversity with phase-only spatial light modulator,” Optics Express, 21(17): 19568-19578 (2013).
11.Lu Rong, Yan Li, Shuo Liu, Wen Xiao, Feng Pan, Dayong Wang, “Iterative solution to twin image problem in in-line digital holography,” Optics and Lasers in Engineering, 51(5): 553-559 (2013).
12.Yizhuo Zhang, Guohai Situ, Pedrini, Giancarlo, Dayong Wang, et al., “Application of short-coherence lensless Fourier-transform digital holography in imaging through diffusive medium,” Optics Communications, 286(1): 56-59 (2012).
13.Qiaofen Zhu, Dayong Wang, Yan Zhang, “Coupled metallic ring gap waveguide”, Optics Communications, 283(7): 1542-2545 (2010).
14.Qiaofen Zhu, Dayong Wang, Yan Zhang, “Enlargement of the band gap in the metal–insulator–metal heterowaveguide,” Optics Communications, 282(6): 1116-1119 (2009).
15.Changgeng Liu, Dayong Wang, Yizhuo Zhang, “Comparison and verification of numerical reconstruction methods in digital holography”, Optical Engineering, 48(10): 105802-1-105802-7 (2009).
16.Dong Liu, Dayong Wang, Shiquan Tao, et al., “Improvement of the wavelength selectivity of volume holographic gratings for optical communication”, J. Opt. A: Pure Appl. Opt., 11(6): 065404 (2009).
17.Dayong Wang, Jie Zhao, Fucai Zhang, et al., “High fidelity numerical realization of multiple-step Fresnel propagation for the reconstruction of digital holograms,” Applied Optics, 47(19): D12-D20 (2008).
18.Huaying Wang, Dayong Wang, Jie Zhao, et al., “Simple and robust digital holography for high-resolution imaging,” Chinese Optics Letters, 6(3): 165-167 (2008).
19.Qiaofen Zhu, Dayong Wang, Yan Zhang, “Design of defective nonlinear photonic crystals for multiple wavelengths second harmonic generation”, J. Opt. A: Pure Appl. Opt, 10(2): 025201 (2008).
20.Dayong Wang, Ji Han, Hancheng Liu, Shiquan Tao, et al., “Experimental study on imaging and image restoration of optical sparse aperture systems,” Optical Engineering, 46(10): 103201 (2007).
21.Avi Pe'er, Dayong Wang, A. W. Lohmann, A. A. Friesem, “Wigner formulation of optical processing with light of arbitrary coherence”, Applied Optics, 40(2): 249-256 (2001).
22.Adolf W. Lohmann, Avi Pe’er, Dayong Wang, et al, “Flatland optics. III. Achromatic diffraction,” J. Opt. Soc. Am. A., 18(9): 2095-2097 (2001).
23.A. W. Lohmann, Dayong Wang, A. Pe'er, A. A. Friesem, “Flatland optics. II. Basic experiments,” J. Opt. Soc. Am. A., 18(5): 1056-1061 (2001).
24.Dayong Wang, A. Pe'er, A. A. Friesem, A. W. Lohmann, “General linear optical coordinate transformations”, J. Opt. Soc. Am. A., 17(10): 1864-1869 (2000).
25.Dayong Wang, A. Pe'er, A. W. Lohmann, A. A. Friesem, “Wigner algebra as a tool for the design of achromatic optical processing system”, Optical Engineering, 39(11): 3014-3024 (2000).
26.Avi Pe'er, Dayong Wang, A. A. Friesem, et al., “Apochromatic optical correlation,” Optical Letters, 25(11): 776-778 (2000).
27.A. W. Lohmann, A. Pe'er, Dayong Wang, et al., “Flatland optics: fundamentals,” J. Opt. Soc. Am. A., 17(10): 1755-1762 (2000).
28.Avi Pe'er, Dayong Wang, A. A. Friesem, et al., “Optical correlation with totally incoherent light”, Optical Letters, 24(21): 1469-1471 (1999).
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