吴彤
近期热点
资料介绍
个人简历
教育经历:2018/12 – 2019/12,美国加州理工学院,Andrew and Peggy Cherng医学工程系,光学成像实验室,访问学者2006/09 – 2011/06,浙江大学,光电系,光学工程,博士2002/09 – 2006/06,天津大学,精密仪器与光电子工程学院光电信息工程系,光电信息工程,学士工作经历:2019/09 – 今,南京航空航天大学,航天学院航天光电信息系,副教授2014/05 – 2019/08,南京航空航天大学,理学院应用物理系,副教授2011/11 – 2014/04,南京航空航天大学,理学院应用物理系,讲师教学经历:1. 主讲《工程光学》、《光学设计》等光电信息科学与工程专业核心课程;2. 曾讲授校公选学科拓展课《现代光学测试技术》、公共课《大学物理II》;3. 指导硕士研究生8人,其中已毕业研究生3人,在读研究生5人。获授权发明专利6项:[1].吴彤、李艳、刘友文、王吉明、赫崇君、顾晓蓉、王青青,基于谱域干涉仪的折射率和厚度同步测量方法与系统,2017/9/5,中国,专利号:ZL201510390449.8[2].吴彤、施瑶瑶、刘友文、李艳、王吉明、赫崇君、顾晓蓉,一种光谱编码共焦与光学相干层析协同成像方法与系统,2017/6/30,中国,专利号:ZL201410459764.7[3].吴彤、吴春洲、王青青、刘友文、李艳、赫崇君、王吉明、顾晓蓉,基于双空间载频技术拓展OCT成像深度的方法与系统,2017/6/16,中国,专利号:ZL201510390567.9[4].吴彤、刘友文、施瑶瑶、王吉明、赫崇君、顾晓蓉,一种紧凑型光谱采集装置及采集方法,2014/12/10,中国,专利号:ZL201210500511.0[5].丁志华,吴彤,王保勇,王川,王玲,陈明惠,陶渊浩,基于干涉光谱相位信息的光谱标定方法及系统,2012/08/15,中国,专利号:ZL201110030974.0[6].丁志华,吴彤,陈明惠,王凯,孟婕,王玲,徐磊,王川,用于内窥光学相干层析成像的二维扫描光纤探头,2009/11/19,中国,专利号:ZL200910154253.3承担项目主持国家自然科学基金青年基金一项、中国博士后面上基金一项、江苏省博士后科研资助基金一项、南京航空航天大学基本科研业务费项目两项。研究领域
"现代光学测试技术、光学相干层析成像技术、光学系统仿真与设计、光纤扫描内窥成像技术"近期论文
[1]. 吴彤, 孙帅帅, 王绪晖, 王吉明, 赫崇君, 顾晓蓉, 刘友文. 基于最优化线性波数光谱仪的谱域光学相干层析成像系统[J]. 物理学报, 2018, 67(10): 104208. doi:10.7498/aps.67.20172606.[2]. Wu T, Sun S, Wang X, Zhang H, He, C, Wang J, Gu X, Liu Y, Optimization of linear-wavenumber spectrometer for high-resolution spectral domain optical coherence tomography. Optics Communication, 2017; 405(171) DOI: 10.1016/j.optcom.2017.08.016[3]. Wu T, Wang Q, Liu Y, Wang J, He C, Gu X. Extending the Effective Ranging Depth of Spectral Domain Optical Coherence Tomography by Spatial Frequency Domain Multiplexing. Applied Sciences. 2016; 6(11):360.[4]. Tong Wu, Qingqing Wang, Youwen Liu and Jiming Wang, Extending the effective imaging depth in spectral domain optical coherence tomography by dual spatial frequency encoding , Proc. SPIE 9697, Optical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XX, 96972X (March 8, 2016); doi:10.1117/12.2211500.[5]. Tong Wu, Yaoyao Shi, Youwen Liu, Chongjun He, “Speckle reduction in optical coherence tomography by adaptive total variation method,” Journal of Modern Optics, 62:21, 1849-1855, (2015) DOI: 10.1080/09500340.2015.1054444.[6]. Tong Wu and Youwen Liu, Optimal non-uniform fast Fourier transform for high-speed swept source optical coherence tomography, Chinese Optics Letters 11, 021702- (2013)[7]. 施瑶瑶, 吴彤*, 刘友文. 艾里光束自弯曲性质的控制[J]. 光子学报, 2013, 42(12): 1401~1407[8]. Tong Wu, Zhihua Ding, Chuan Wang, and Minghui Chen, Full-range swept source optical coherence tomography based on carrier frequency by transmissive dispersive optical delay line, Journal of Biomedical Optics 16 (12), 126008 (2011).[9]. Tong Wu, Zhihua Ding, Ling Wang, and Minghui Chen, Spectral phase based k-domain interpolation for uniform sampling in swept-source optical coherence tomography, Optics Express 19 (19), 18430-18439 (2011).[10].丁志华,吴彤,孟婕,王凯,杨亚良,王玲,吴兰,刘旭. 从光学相干层析成像到光学频域成像[J]. 激光与光电子学进展, 2009, 46(1): 16~18[11].吴彤,丁志华, “20 kHz扫频光学相干层析系统” [J], 中国激光, 2009, 36(2): 503~508.[12].吴彤,丁志华,王凯,徐磊,陈明惠,王川, “基于光纤扫描探头的扫频光学相干层析实时成像系统”, [J], 光学学报, 2009, 29 (s1): 37~41.[13].Tong Wu, Zhihua Ding, Minghui Chen, Lei Xu, Guohua Shi, and Yudong Zhang, Development of high-speed swept-source optical coherence tomography system at 1320 nm, Journal of Innovative Optical Health Sciences 2 (1), 117-122 (2009).[14].Tong Wu, Zhihua Ding, Kai Wang, and Chuan Wang, Swept source optical coherence tomography based on non-uniform discrete fourier transform, Chinese Optics Letters 7 (10), 941-944 (2009).[15].Tong Wu, Zhihua Ding, Kai Wang, Minghui Chen, and Chuan Wang, Two-dimensional scanning realized by an asymmetry fiber cantilever driven by single piezo bender actuator for optical coherence tomography, Optics Express 17 (16), 13819-13829 (2009).[16].Kai Wang, Zhihua Ding, Tong Wu, Chuan Wang, Jie Meng, Minghui Chen, and Lei Xu, Development of a non-uniform discrete Fourier transform based high speed spectral domain optical coherence tomography system, Opt. Express 17, 12121-12131 (2009)[17].Yaoyao Shi, Youwen Liu, Wei Sheng, Jiming Wang, and Tong Wu, Speckle rotation decorrelation based single-shot video through scattering media, Opt. Express 27, 14567-14576 (2019) 相关热点
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