光学工程(含光电信息工程专硕)

姚晓天

学历: 博士
职称:教授
电话:
邮箱:
地址:五四东路180号
邮编:071002

个人简介

姚晓天,教授,博导。工学博士(1992年在美国南加州大学获光电子学博士学位)。1990~2000年任美国加州理工学院NASA喷气动力实验室(JPL)资深研究员,先后三年(1998、2000、2001)就任美国OFC(光纤技术)技术委员会成员,美国光学学会会士(OSA Fellow),yl23455永利yl23455永利公司“长江学者”特聘教授,国家“973”计划分课题负责人,yl23455永利yl23455永利公司光信息技术创新中心主任。

主持多项国家自然基金,创造发明并开发了20多种具有国际领先水平的高端光电仪器及模块,拥有68项美国发明专利和10多项中国专利,并多次获得国际级奖项。在国际光学杂志上发表学术论文近百篇,近年来被SCI收录学术论文33篇, 被EI收录学术论文38篇。曾获得美国航天总署(NASA)技术发明奖39项。

多次应邀在重要国际会议(北美、欧洲、日本等国)上作特邀报告8篇,OFC会议Postdeadline(即大会重要发言)报告2篇。《微波光电技术(RF Photonic Technology in Optical Fiber Links)》光电技术专著作者之一,剑桥大学出版社2002 年出版,这是第一本关于微波光电子通讯的权威著作。1996 年度《光学与光电子学》新闻杂志(美国光学学会会刊)里程碑文章,SPIE 年册收录里程碑文章,《光电子学手册(Photonics Handbook)》偏振专栏作者(A Laurin Publication 出版)等。

研究方向

1、基于偏振串扰的分布式光纤传感技术研究

2、光学断层扫描(OCT)技术在多种材料检测方面的应用研究

3、光纤电流、电压互感器开发技术研究

4、使用光纤传感技术的智能蒙皮研究

学术成果

学术兼职

美国光学学会会士(OSA Fellow),电气与电子工程师协会(IEEE)高级会员,光学顶级期刊Optics Letters责任编辑,Optic Express、Journal of Lightwave Technology、IEEE Photonics Technology Letters等著名期刊审稿人。

 科研项目、奖励

国家“973”计划分课题负责人,主持和参与多项国家自然基金项目,创造发明并主持开发了20多种具有国际领先水平的高端光电仪器及模块,拥有68项美国发明专利和10多项中国专利,并多次获得国际级奖项。曾获得美国航天总署(NASA)技术发明奖39项,其中4 项被誉为对美国航天事业发展具有重要价值。

主要项目:

1、 河北省高等学校高层次人才科学研究项目:基于分布式偏振串扰的全光纤应力监测方案,2015.01-2017.12,GCC2014020,50.0万元

2、 国家自然科学基金面上项目,30770597、偏振光学相干层析技术对早期龋齿诊断方法研究、2008/01-2010/12、30万元、已结题、主持。

主要奖励:

1、 发明了光电微波振荡器,打破了光电振荡器开发的僵局,此发明获得美国宇航局创造发明奖。

2、 发明并主持开发了基于三进制光学的偏振优化的偏振模色散发生源,并已投入市场,填补了国内外相关仪器的一个空白,它将在高速光通讯的开发中得到广泛应用,尤其在40G和100G系统的开发中。此产品已获美国2009年度创造性奖,并在2010年5月18-20日举行的CLEO光学大会上颁奖。

3、 发明并主持开发了挤压式偏振控制器,获多项美国专利,并获2000年度光电子领域卓越产品奖,在SPIE光学大会上颁奖。

4、 发明并主持开发了基于二进制光学的偏振模色散发生器,获多项美国专利,并获2001年度光电子领域卓越产品奖,在SPIE光学大会上颁奖。

 代表论文、专利、教材等:

[1] Ya Su, X. Steve Yao*, Changjiang Wei, Yimin Wang, Hongjie Wang, Zhihong Li. “Determination of the pressure coefficient of optical attenuation in different layers of in-vivo human skins with optical coherence tomography”, Photonics Journal, 8(1): 3800110, 2016. (SCI 检索)

[2] Ya Su, X. Steve Yao*, Zhihong Li, Zhuo Meng, Tiegen Liu, Longzhi Wang. “Measurements of the thermal coefficient of optical attenuation at different depth regions of in vivo human skins using optical coherence tomography: a pilot study”, Biomedical Optics Express, 6(2): 500-513, 2015. (SCI 检索)

[3] Ya Su, X. Steve Yao*, Zhuo Meng, Longzhi Wang, Haimin Yu, Tiegen Liu. “Effect of temperature on noninvasive blood glucose monitoring in vivo using optical coherence tomography”, Chinese Optics Letters, 12(11): 111701, 2014. (SCI检索)

[4] Zhihong Li, Zhou Meng, Tiegen Liu, X. Steve Yao*. A novel method for determining and improving the quality of a quadrupolar fiber gyro coil under temperature variations. Optics Express, 21(2): 2521-2530, 2013. (SCI检索)

[5] Wang Longzhi, Meng Zhuo, Xiaotian Steve Yao*, Liu Tiegen, Su Ya,Qin Mingliang. Adaptive Speckle Reduction in OCT Volume Data Based on Block-Matching and 3-D Filtering. Photonics Technology Letters, IEEE. 24 (20): 1802-1804, 2012. (SCI检索)

[6] X. S. Yao, X. Chen, and T. Liu, High accuracy polarization measurements using binary polarization rotators, Optics Express, 2010, 18(7), 6667-6685. (SCI 检索)

[7] X. S. Yao, X. Chen, T. J. Xia, G. Wellbrock, D. Chen, D. Peterson, P. Zhang, A. Belisle, L. Dong and T. Yu, In-service light path PMD (polarization mode dispersion) monitoring by PMD compensation, Optics Express, 2010, 18(26), 27306-27318. (SCI 检索)

[8] X. S. Yao, B. Zhang, X. Chen and A. E. Willner, Real-time optical spectrum analysis of a light source using a polarimeter, 2008, Optics Express, 16(22),17854-17863. (SCI 检索)

[9] L. Yan, L. lin, A. Belisle, S. Wey and X. S. Yao, Programmable optical delay generator with uniform output and double-delay capability, Journal of Optical Networking, 2007, 6(1), 13-18. (SCI 检索)

[10] X. Chen, L. Yan, and X. S. Yao, Waveplate analyzer using binary magneto-optic rotators, Optics Express, 2007, 15(20), 12989-12994. (SCI 检索)

[11] Y. Shi, L. Yan, and X. S. Yao, Automatic Maximum–Minimum Search Method for Accurate PDL and DOP Characterization, Journal of Lightwave Technology, 2006, 24(11), 4006-4012. (SCI 检索)

[12] X. S. Yao, X. Chen, and L. Yan, Self-calibrating binary polarization analyzer, Optics Letters, 2006, 31(13), 1948-1950. (SCI 检索)

[13] L. Yan, X. S. Yao, C. Yu, Y. Wang, L. Lin, Z. Chen, and A. E. Willner, High-Speed and Highly Repeatable Polarization-State Analyzer for 40-Gb/s System Performance Monitoring, IEEE Photonics Technology Letters, 2006, 18(4), 643-645. (SCI 检索)

[14]    Y. Shi, L. Yan and X. S. Yao, Automatic Maximum-Minimum Search Method for Accurate PDL and DOP Characterization, Journal of Lightwave Technology, 2006, 24(11), 4006-4012. (SCI 检索)

[15] X. S. Yao, X. Chen and L. Yan, Self-calibrating Binary Polarization Analyzer, Optics Letters, 2006, 31(13), 1948-1950. (SCI 检索)

[16] L. Yan, X. S. Yao, M. Hauer and A. Willner, Practical solutions to polarization-mode- dispersion emulation and compensation, Journal of Lightwave Technology, 2006, 24(11), 3992-4005. (SCI 检索)

[17] L. Yan, X. S. Yao and A. Willner, Enabling ‘Hinge’ Model in Polarization-Mode Dispersion Statistics Using Variable Differential-Group-Delay-Based Emulator, IEEE Photonics Technology Letters, 2006, 18(2), 427-429. (SCI 检索)

[18] X. S. Yao, L. Yan and Y. Shi, Highly Repeatable All Solid-State Polarization State Generator, Optics Letters, 2005, 1324-1326. (SCI 检索)

[19] L. Yan, X. S. Yao, Y. Shi and A. Willner, Simultaneous monitoring of both optical signal to noise ratio and polarization mode dispersion using polarization scrambling and polarization beam splitting, Journal of Lightwave Technology, 2005, 23(10), 3290-3294. (SCI 检索)

[20] X. S. Yao, L. Yan, and Y. Shi, Highly repeatable all-solid-state polarization-state generator, Optics Letters, 2005, 30(11), 1324-1326. (SCI 检索)

[21] L. Yan, M. C. Hauer, Y. Shi and X. S. Yao, P. Ebrahimi, Y. Wang, A. Willner, and W. Kath, Polarization-Mode-Dispersion Emulator Using Variable Differential-Group-Delay (DGD) Elements and Its Use for Experimental Importance Sampling, Journal of Lightwave Technology, 2004, 22(4),1051-1058. (SCI 检索)

[22] L. Yan, C. Yeh, G. Yang, L. Lin, Z. Chen, Y. Q. Shi, A. E. Willner, and X. S. Yao, Programmable Group Delay Module Using Binary Polarization Switching, Journal of Lightwave Technology, 2003, 21(7), 1676 -1684. (SCI 检索)

[23] 姚晓天,王龙志,孟卓,应用于血糖检测的皮肤区域定位装置、方法及其系统,中国,专利授权号:201310210400.0。中国发明专利

[24] 姚晓天,李志宏,孟卓,基于光学相干断层扫描技术的光纤环质量检测方法及装置,中国,专利授权号:201210381902.5。中国发明专利

[25] L. Y, X. Chen, and X. S. Yao, Optical differential group delay module with folded optical path: U.S. Patent 7,723,670, 2010.5.

[26] 专利号201010147282X,专利名称《基于三个固态旋偏器的偏振模色散仿真器和偏振模色散补偿器》中国实用新型专利;

[27] X. S. Yao, J. Chen and Y. Shi, Optical depolarizers and DGD generators based on optical delay: U.S. Patent 7,535,639, 2009.5.

[28]    X. S. Yao, Compact optical delay devices: U.S. Patent 7,534,990, 2009.5.

[29] X. S. Yao, Measurements of polarization-dependent loss (PDL) and degree of polarization (DOP) using optical polarization controllers: U.S. Patent 7,522,785, 2009.4.

[30] X. S. Yao, Optical instrument and measurements using multiple tunable optical polarization rotators: U.S. Patent 7,466,471, 2008.12.

[31] X. S. Yao, X. Chen, and L. Yan, Polarization measurement and self-calibration based on multiple tunable optical polarization rotators: U.S. Patent 7,436,569, 2008.10.

[32] 专利号2008101329769,专利名称《光纤延伸器》中国发明专利;

[33] 专利号2007101463176,专利名称《紧凑型光延迟装置》中国发明专利;

[34] X. S. Yao, Optical instrument and measurements using multiple tunable optical polarization rotators: U.S. Patent 7,218,436, 2007.5.

[35] X. S. Yao, J. Chen and Y. Shi, Optical depolarizers and DGD generators based on optical delay: U.S. Patent 7,154,659, 2006.12.

[36] 专利号2006100728758,专利名称《可定量调节光偏振态的装置及方法》中国发明专利;

[37] 专利号2005101261828,专利名称《使用光偏振控制器进行偏振相关损耗和偏振度测量的设备及方法》中国发明专利

[38] 专利号2005100752926,专利名称《利用若干可调旋偏器的光学器件和测量系统》中国发明专利;

[39] X. S. Yao, Photonic variable delay devices based on optical birefringence: U.S. Patent RE38,809, 2005.10.

[40] X. S. Yao, and Y. Shi, Optical spectrum monitor: U.S. Patent 6,937,798, 2005.8.

[41] X. S. Yao, Compact programmable photonic variable delay devices: U.S. Patent RE38,735, 2005.5.

[42] X. S. Yao, In-line optical polarimeter based on integration of free-space optical elements: U.S. Patent 6,836,327, 2004.12.

 

六、联系方式:

E-mail: steveyao888@yahoo.com

实验室网址:http://piic.hbu.cn

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