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张小贝 教授 | tyc1286太阳集团领军人物

办公室:

宝山校区东区 翔英楼T537、东区12号楼B423

通信地址(邮政编码):

上海市上大路9983#tyc1286太阳集团tyc1286太阳集团(200444

电话:

电子邮件:

xbzhang@shu.edu.cn

个人主页:

/Prof/zhangxb.htm

个人简介(简历)

主要从事特种光纤器件、光学谐振腔和光纤传感研究。2009年毕业于华中科技大学,获工学博士学位。2007-2008年曾受国家公派资助在英国剑桥大学联合培养。2009年加入tyc1286太阳集团,2014-2015年在美国克莱姆森大学担任高级访问学者,2017年晋升教授,2021年起受聘为tyc1286太阳集团特聘教授“伟长学者”。现任IEEE Photonics Journal AE、《应用科学学报》副主编、《应用光学》青年编委。主持国家自然科学基金、军口项目、省部级和产学研合作项目十余项。提出谐振腔内耦合空芯光纤激发回音壁模式的传感新结构,融合光学谐振腔与特种光纤技术优势,在国内外主流期刊和会议发表论文80余篇,特邀报告10余次。

【荣誉奖励】国家自然科学基金优青项目资助、上海市人才发展资金资助、上海市晨光计划、上海市育才奖、tyc1286太阳集团教学成果奖、tyc1286太阳集团实验室建设先进工作者、tyc1286太阳集团优秀青年教师等。

1. 教育经历:

2004/9-2009/6,华中科技大学,光学工程,博士

2000/9-2004/6,华中科技大学,光信息科学与技术,学士

其中2007/9-2008/8,英国剑桥大学,工程系,国家公派联合培养博士生

2. 工作经历:

2018/10至今,tyc1286太阳集团,通信与信息工程学院,副院长

2017/3至今,tyc1286太阳集团,通信与信息工程学院,教授、博导

2011/7-2017/2,tyc1286太阳集团,通信与信息工程学院,副教授

2009/7-2011/6,tyc1286太阳集团,通信与信息工程学院,讲师

其中2014/2-2015/2,美国克莱姆森大学,电子与计算机工程系,高级研究学者

本科生教学

本科生课程:信号与系统、光纤光学、光电信息技术、光纤通信等

新生研讨课:身边的光电信息技术——兼谈挑战杯中的典型案例

每年招收毕业设计/优秀本科生培养1-3

研究生培养

研究生课程:光电子技术、多传感器数据采集与融合、航天系统工程、计算电磁学等

每年招收博士研究生、学术和专业硕士研究生3-5

毕业研究生的主要就业去向:1)科研院所深造:攻读博士学位、上海市计量测试技术研究院等;2)信息技术公司:携程、字节跳动、阿里、网易、上海大众、爱立信、中国电信、卡斯柯等;3)金融保险行业:中国银联、蚂蚁金服、农业银行、交通银行、上海农商银行、平安保险等

承担或参与的主要科研项目

(1) 国家自然科学基金优青项目,谐振腔及光纤传感技术,2021.01-2023.12,主持人

(2) 国家自然科学基金面上项目,面向磁场传感的瓶状微腔奇异点增强机理及器件研究,2019.01-2022.12,主持人

(3) 国家自然科学基金面上项目,探针式空芯光纤耦合回音壁模微腔及其传感与激光特性研究,2017.01-2020.12,主持人

(4) 国家自然科学基金面上项目,微纳光纤熔锥法珀微腔和长周期光栅集成器件及双向传感机理研究,2014.01-2017.12,主持人

(5) 国家自然科学基金青年项目,分形拓扑结构微环谐振器阵列的慢光特性研究,2011.01-2013.12,主持人

(6) 军委装发预研项目,XXX微球,2019.02-2021.02,主持人

(7) 上海市自然科学基金(探索类),面向生化传感的微瓶微流控器件,2018.06-2021.05,主持人

(8) 校企合作项目,多模波导制备及波导光刻垂直转向研究,2020.08 - 2022.07,主持人

(9) 武汉光电国家研究中心开放基金课题,反射式空芯光纤耦合微球激光器,2019.01-2021.12,主持人

(10) 上海市教委创新基金,基于微纳米光纤复合型微腔的生化传感器研究,2011.01-2012.12,主持人

(11) 上海市人才发展资金资助,2019.01-2020.12,主持人

(12) 上海市晨光计划,2012.09-2015.08,主持人

(13) 国家自然科学基金国际(地区)合作与交流项目,亚洲光纤通信与光电国际会议及博览会,2011.09-2012.01,参与人

(14) 国家自然科学基金面上项目,基于有源微环谐振腔的无损光信息缓存,2006.01-2008.12,参与人

代表性学术论文、授权发明专利及特邀报告

[1] Yong Yang, Xiaobei Zhang*, Lei Yang, Yang Yu, Zijie Wang, and Tingyun Wang, Ultrahigh-sensitivity displacement sensing enabled by the Vernier effect with inhibited antiresonance, Optics Letters, 46(5):1053-1056, 2021

[2] Yang Yu, Xiaobei Zhang*, Kehong Wang, Zijie Wang, Hang Sun, Yong Yang, Chuanlu Deng, Yi Huang, Tingyun Wang, Coexistence of transmission mechanisms for independent multi-parameter sensing in a silica capillary-based cascaded structure, Optics Express, 29(17):27938-27950, 2021

[3] Hang Sun, Xiaobei Zhang*, Xiaochen Liu, Zijie Wang, Yang Yu, Yong Yang, Chuanlu Deng, Yi Huang, Tingyun Wang, Hollow-glass-microsphere-assisted half-circle interference for hydrostatic pressure measurement with high sensitivity, Optics Express, 29(14):21252-21261, 2021

[4] Zijie Wang, Xiaobei Zhang*, Shuaichang Zhao, Yang Yu, Hang Sun, Yong Yang, Yanhua Dong, Yi Huang, Tingyun Wang, High-Sensitivity Flow Rate Sensor Enabled by Higher Order Modes of Packaged Microbottle Resonator, IEEE Photonics Technology Letters, 33(12):599-602, 2021

[5] Yong Yang, Xiaobei Zhang*, Xiaochen Liu, Zijie Wang, Yang Yu, Jiawei Wang, and Tingyun Wang, In-fiber zigzag excitation for whispering-gallery modes via evanescent wave and free space coupling, Optics Express, 28(21):31386-31396, 2020

[6] Wen Sun, Xiaobei Zhang*, Yang Yu, Lei Yang, Fengyu Hou, Yong Yang, Tingyun Wang, Comparative Study on Transmission Mechanisms in a SMF-Capillary-SMF Structure, IEEE/OSA Journal of Lightwave Technology, 38(15):4075-4085, 2020

[7] Lei Yang, Xiaobei Zhang*,Yong Yang, Fengyu Hou, Wen Sun, Hang Sun, Qianqing Yu, Zhenggang Lian, Tingyun Wang, All-Pass and Add-Drop Microsphere Resonator in a Suspended Dual-Core Hollow Fiber, IEEE Photonics Technology Letters, 32(10):603-606, 2020

[8] Fengyu Hou, Xiaobei Zhang*, Zijie Wang, Lei Yang, Wen Sun, Yong Yang, Yanhua Dong, Yi Huang, Tingyun Wang, Magnetic Fluid Infiltrated Microbottle Resonator Sensor With Axial Confined Mode, IEEE Photonics Journal, 12(5), 6802709, 2020

[9] Ming Yan, Xiaobei Zhang*, Jiawei Wang, Fengyu Hou, Lei Yang, Wen Sun, Yong Yang, Tingyun Wang, Effects of end surface and angle coupling on mode splitting and suppression in a cylindrical microcavity, Applied Optics, 58(7):1752-1756, 2019

[10] Jiawei Wang, Xiaobei Zhang*, Ming Yan, Lei Yang, Fengyu Hou, Wen Sun, Xiaotong Zhang, Libo Yuan, Hai Xiao, and Tingyun Wang, Embedded whispering-gallery mode microsphere resonator in a tapered hollow annular core fiber, Photonics Research, 6(12):1124-1129, 2018

[11] Xiaobei Zhang*, Haiyang Pan, Huawen Bai, Ming Yan, Jiawei Wang, Chuanlu Deng, Tingyun Wang, Transition of Fabry–Perot and antiresonant mechanisms via a SMF-capillary-SMF structure, Optics Letters, 43(10):2268-2271, 2018

[12] Xiaobei Zhang*, Huawen Bai, Haiyang Pan, Jiawei Wang, Ming Yan, Hai Xiao, Tingyun Wang, In-Line Fiber Michelson Interferometer for Enhancing the Q Factor of Cone-Shaped Inwall Capillary Coupled Resonators, IEEE Photonics Journal, 10(2), 6801808, 2018

[13] Xiaobei Zhang*, Yong Yang, Huawen Bai, Jiawei Wang, Ming Yan, Hai Xiao, Tingyun Wang, Theoretical aspects and sensing demonstrations of cone-shaped inwall capillary based microsphere resonators, Photonics Research, 5(5): 516-520, 2017

[14] Xiaobei Zhang*, Yong Yang, Haiyang Shao, Huawen Bai, Fufei Pang, Hai Xiao, Tingyun Wang, Fano resonances in cone-shaped inwall capillary based microsphere resonator, Optics Express, 25(2):615-621, 2017

[15] Xiaobei Zhang*, Haiyang Shao, Yong Yang, Haiyang Pan, Fufei Pang, Tingyun Wang, Refractometry with a tailored sensitivity based on a single-mode-capillary-single-mode fiber structure, IEEE Photonics Journal, 9(2), 6801908, 2017

[16] Xiaobei Zhang*, Haiyang Shao, Haiyang Pan, Yong Yang, Huawen Bai, Fufei Pang, Tingyun Wang, Simple capillary-based extrinsic Fabry–Perot interferometer for strain sensing, Chinese Optics Letters, 15(7), 070601, 2017

[17] Xiaobei Zhang*, Jiabao Xiong, Fan Gu, Jinlong Li, Wenyuan Wang, Fufei Pang, and Tingyun Wang, Fabrication and sensing characteristics of intrinsic Fabry-Perot interferometers in fiber tapers, Chinese Optics Letters, 13(12), 120602, 2015

[18] Sichen Liu, Yi Huang, Chuanlu Deng, Chengyong Hu, Caihong Huang, Yanhua Dong, Yana Shang, Zhenyi Chen, Xiaobei Zhang, and Tingyun Wang, Magneto-refractive properties and measurement of an erbium-doped fiber, Optics Express, 29(21):34577-34589, 2021

[19] Yi Huang, Hong Qiu, Chuanlu Deng, Zhenggang Lian, Yong Yang, Yang Yu, Chengyong Hu, Yanhua Dong, Yana Shang, Xiaobei Zhang, and Tingyun Wang, Simultaneous measurement of magnetic field and temperature based on two anti-resonant modes in hollow core Bragg fiber, Optics Express, 29(20):32208-32219, 2021

[20] Yang Li, Yi Huang, Yuan Shi, Chuanlu Deng, Chengyong Hu, Yanhua Dong, Xiaobei Zhang, Tingyun Wang, Optical Path Optimal Length for Ultraviolet Ammonia Detection With a Compact and Flexible Gas-Absorption Cell, IEEE Sensors Journal, 21(16):17889-17897, 2021,

[21] Yanhua Dong, Yangyang Zhao, Haiying Zhang, Jianxiang Wen, Xiaobei Zhang, Yi Huang, Yana Shang, Heming Wei, Tingyun Wang, Theoretical study on ultra-broadband gain and low noise characteristics of PbS quantum dots-doped silica fiber amplifier, Optics Communications, 493(15), 126992, 2021

[22] Xueting Wang, Chuanlu Deng, Yi Huang, Fang Zhang, Ruhuan Zhang, Xiaobei Zhang, and Tingyun Wang, Spherical concave micro-mirror fabricated using gray-tone optical lithography for vertical coupling, Optics Express, 29(9), 13288-13301, 2021

[23] Xiangping Pan, Yanhua Dong, Ming Jia, Jianxiang Wen, Caiyun Su, Yana Shang, Xiaobei Zhang, Fufei Pang, Tingyun Wang, Temperature-induced PbS quantum dots with tunable broadband wavelength grown by atomic layer deposition, Applied Surface Science, 546(30), 149086, 2021

[24] Chuanlu Deng, Xueting Wang, Ruhuan Zhang, Yi Huang, Xiaobei Zhang, and Tingyun Wang, Stepped laser-ablation fabrication of concave micromirrors in rectangular optical waveguides for low loss vertical coupling, Optics Express, 28(14):20264-20276, 2020

[25] Q.Yang, Xiaobei Zhang, Y. Song, K. Li, H. Shi, H. Xiao and Y. Ma, Label-free in situ pH monitoring in a single living cell using an optical nanoprobe, Medical Devices & Sensors: e10079, 2020.

[26] Yi Huang, Tingyun Wang, Chuanlu Deng, Xiaobei Zhang, Fufei Pang, Xuekun Bai, Weilong Dong, Liangjiang Wang, Zhenyi Chen, A Highly Sensitive Intensity-modulated Optical Fiber Magnetic Field Sensor Based on the Magnetic Fluid and Multi-mode Interference, Journal of Sensors, 2017, 9573061, 2017

[27] Chuanlu Deng, Tingyun Wang, Jiamin Chen, Chengbo Mou, Xiaobei Zhang, Xinjie Yan, Fufei Pang, Roughness estimation of multimode rectangular optical waveguide based on the scattering loss difference between SMFW and MMFW structures, IEEE Photonics Journal, 9(2),7902813, 2017

[28] Yana Shang, Jianxiang Wen, Yanhua Dong, Haihong Zhan, Yanhua Luo, Gang-Ding Peng, Xiaobei Zhang, Fufei Pang, Zhenyi Chen, and Tingyun WangLuminescence properties of PbS quantum-dot-doped silica optical fibre produced via atomic layer deposition, Journal of Luminescence, 187, 201-204, 2017

[29] Fufei Pang, Mengting He, Huanuan Liu, Xuanwei Mei, Jiamin Tao, Tongzhi Zhang, Xiaobei Zhang, Na Chen, and Tingyun Wang, A Fading-Discrimination Method for Distributed Vibration Sensor Using Coherent Detection of φ-OTDR, IEEE Photonics Technology Letters, 28, 2752-2755, 2016

[30] Tongzhi Zhang, Fufei Pang, Huanhuan Liu, Jiajing Cheng, Longbao Lv, Xiaobei Zhang, Na Chen and Tingyun Wang, A Fiber-Optic Sensor for Acoustic Emission Detection in a High Voltage Cable System, Sensors, 16, 2026, 2016

[31] Lei Yuan, Yinan Zhang, Yan Lu, Xiaobei Zhang, Mengmeng Wang, Embeddable Advanced Sensors for Harsh Environment Sensing Applications, Journal of Sensors, 2016, 2897541, 2016

[32] Tongjian Cai, Yunqi Liu, Xiaobei Zhang, Tingyun Wang, Generation of Tunable Multi-Wavelength Optical Short Pulses Using a Self-Seeded Fabry-Perot Laser Diode and a tilted Multimode Fiber Bragg Grating, Chinese Optics Letters, 9(4), 041403, 2011

[33] Xiaobei Zhang*, Yunhong Ding, Wei Hong, Xinliang Zhang, Dexiu Huang, Analyzing and tailoring spectra of arbitrary microring resonator arrays based on six transfer cells and simulated annealing algorithm, Chinese Optics Letters, 7(9), 841, 2009

[34] Xiaobei Zhang*, Dexiu Huang, Xinliang Zhang, Transmission characteristics of dual microring resonators coupled via 3×3 couplers, Optics Express, 15(21), 13557, 2007

[35] Xiaobei Zhang*, Xinliang Zhang, Wei Hong, Dexiu Huang, Simple method for spectral response simulation of micro-ring resonators by combining transfer matrix method with FDTD method, Electronics Letters, 42(19), 1095, 2006

[36] Yunhong Ding, Xiaobei Zhang, Xinliang Zhang, Dexiu Huang, Elastic polarization converter based on dual microring resonators, IEEE Journal of Quantum Electronics, 45(8):1033-103, 2009

[37] Yunhong Ding, Xiaobei Zhang, Xinliang Zhang, Dexiu Huang, Active microring optical integrator associated with electroabsorption modulators for high speed low power loadable and erasable optical memory unit, Optics Express, 17(15), 12835, 2009

[38] Yunhong Ding, Xiaobei Zhang, Xinliang Zhang, Dexiu Huang, Proposal for loadable and erasable optical memory unit based on dual active microring optical integrators, Optics Communications, 281(21), 5315, 2008

[39] 刘笑尘, 谢严, 陈溢琦, 王梓杰, 余洋, 杨勇, 张小贝*, 王廷云. 光纤耦合双微球谐振腔及其模式分裂特性[特邀论文]. 光学学报, 2021, 41(13):1306017

[40] 孙航, 刘笑尘, 王梓杰, 余洋, 杨勇, 张小贝*. 毛细管内嵌微球谐振腔的温度传感特性研究. 应用光学, 2021,42(5): 926-931

[41] 侯峰裕, 王梓杰, 余洋, 孙航, 杨勇, 张小贝*. 空心微瓶谐振腔的曲率模型及其传输特性研究. 应用光学, 2020, 41(5):1122-1128

[42] 张小贝*, 肖海, 王廷云. 毛细管光纤传感器研究进展[特邀论文]. 应用科学学报, 2017, 35(4):523-536

[43] 张小贝*, 丁运鸿, 张新亮, 黄德修. 有损串联双微环谐振器谱线与延迟特性的解析研究. 中国激光, 2010, 37(1):147-154

[44] 张小贝*, 黄德修, 洪伟, 张新亮. 传输矩阵法分析微环谐振器阵列传输特性. 光学学报, 2007, 27(10):1585-1592

[45] 徐冬金, 黄怿, 邓传鲁, 胡程勇, 张小贝, 王廷云. 强电磁干扰环境下光纤束传像系统的设计研究. 应用光学, 2020, 41(6):1289-1297

[46] 程佳静, 庞拂飞, 朱姗, 张小贝, 王廷云. 涂覆纳米膜的腐蚀双包层光纤折射率传感特性研究. 中国激光, 2018, 45(8), 0810003

[47] 夏倩,李康,拂飞,张小贝,王廷云,赵丽,刘哲,张佩华,交叉多模光波导传输特性分析. 半导体光电, 2013, 34(6):966-970

[48] 李康, 庞拂飞, 吴金华, 张小贝, 王廷云. 低损耗聚合物互连光波导的制备及性能测试. 光电子-激光, 2013, 4:716-719

[49] 申请发明专利:Tingyun Wang, Chuanlu Deng, Xueting Wang, Yi Huang, Xiaobei Zhang, Method for fabricating spherical concave mirror in optical waveguide based on ultraviolet grayscale lithography, US 2021/0072641 A1, 公开日期:2021.03.11

[50] 授权发明专利:王廷云,邓传鲁,王雪婷,赵静轩,黄怿,张小贝,董艳华,拂飞,一种基于激光冷加工在光波导上制备球形凹面镜的方法,ZL201910236091,授权日期:2021.08.10

[51] 授权发明专利:王廷云,邓传鲁,王雪婷,黄怿,张小贝,基于紫外灰阶光刻制备光波导球形凹面镜的方法,ZL201910843158.8,授权日期:2021.01.22

[52] 授权发明专利:王廷云,刘琳琳,邓传鲁,赵静轩,张小贝,董艳华,拂飞,一种提高光波导传输特性的光波导模式转换器,ZL201810458870.1,授权日期:2020.01.17

[53] 授权发明专利:张小贝,顾凡,李迎春,用于光学延迟线的环联分形拓扑结构微环阵列,ZL201410162184.1,授权日期:2016.08.24

[54] 授权发明专利:张小贝,李金龙,王文辕,殷赵辉,李迎春,拂飞,刘云启,王廷云,基于光纤熔锥的本征型法布里-珀罗器件及其制造方法,ZL201110342596.X,授权日期:2013.03.06

[55] 国际国内会议特邀报告:ACP2018ICAIT2018/2019/20212018第二届微纳光学技术与应用交流会、POEM2018/2021PA2018、中国光学学会学术大会2019/2021、中国光纤传感论坛2019/2020PIERS2019OIT2021ICICN2021光信息与光网络大会2021等。

学术兼职

特种光纤与光接入网重点实验室副主任;

IEEE Photonics JournalAssociate Editor

《应用科学学报》副主编;

《应用光学》青年编委;

美国光学学会(OSA)会员;

国际电气和电子工程师协会(IEEE)会员;

中国光学工程学会(CSOE)高级会员;

中国光学学会(COS)高级会员等。 

 

 

 

 

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