耿涛

　　耿涛，1972年9月生，博士，教授，博士生导师。 

　　

1991.09-1995.07: 哈尔滨工业大学机械电子工程专业，获工学学士学位；

1995.09-1998.03: 长春光学精密机械学院测试计量及仪器专业，获工学硕士学位；

1998.09-2003.06: 哈尔滨工业大学精密仪器及机械专业，获工学博士学位。

　　光电检测，光纤传感。　

团队在天文光纤技术领域具有国际一流水平，与国家天文台、云南天文台、南京天光所、长春光机所、烟台艾睿光电科技有限公司、长飞光纤光缆股份有限公司等单位合作密切，在特种光纤微器件、光纤制备与测试、光谱获取技术、光纤传感技术、液晶光学技术等领域具有研究特色和优势。
    计划招收博士研究生4-5/年，硕士研究生20-30/年。研究所提供一流的学习环境和实验条件，配备充足的科研经费，可以提供赴南京天光所、国家天文台、云南天文台、海岸带研究所、艾睿光电、长飞等国内知名研究机构或企业合作研究的机会。

要求：1.研究兴趣浓烈；2.勤奋好学，潜心研究；3.中英文交流能力强。

欢迎感兴趣的同学加盟。

物理光学

高等物理光学

　　中国光学学会会员，黑龙江省物理学会理事，哈尔滨市科技局项目评审专家。　　

(1) 发明专利，姜春桐;谢天赐;胡耀升;孙伟民;秦壮;马羽;耿涛，一种半球形可伸缩3D光纤加速器晨检仪，申请号：CN201710722247.8，申请日期：20170822，专利号：ZL201710722247.8，授权日期：20210511，授权公告号CN107456664B。
(2) 发明专利，孙伟民;耿涛;赵闯;闫奇;于乐;金夕人;陈旭东;蒋航，一种用于积分视场单元的自聚焦光纤阵列，申请号：CN201910218731.6，申请日期：20190321,授权日期：2021.04.02，授权公告号CN109917510B。
(3) 发明专利，耿涛;于乐;赵闯;白星宇;金夕人;闫奇;陈旭东;蒋航;孙伟民，一种光纤阵列与蝇眼透镜的对准系统及方法，授权公告号：CN109375330B，授权公告日：20210330，申请号：CN201811216179.9，申请日：20181018。
(4) 发明专利，孙伟民;耿涛;陈龙震;闫奇;陈旭东;金夕人;张英华;朱清柱;王安之;王佳斌，一种高能激光光纤束及其制作方法， 申请号：CN201911364201.9， 申请日期：2019.12.23，公开日期：2020.04.10，公开号：CN110989073A，专利号：ZL201911364201.9，授权日期：2020.12.22，授权公告号CN110989073B。
(5) 发明专利，孙伟民;耿涛;于乐;李玉祥;闫奇;金夕人;陈旭东;蒋航;赵闯;白星宇，申请日期：2019.02.15，申请号：CN201910118321.4，公开日期：2019.06.07，公开号：CN109856807A，专利号：ZL201910118321.4，一种基于透镜阵列的二次分像方法，授权日期：2020.12.22。授权公告号CN109856807B
(6) 发明专利，孙伟民;张英华;耿涛;闫奇;陈旭东;金夕人;陈龙震;朱清柱;王佳斌;严云翔;汪盛佳，一种带位置检测功能的量子点光纤微弯传感器，申请号: CN202010498424.0，申请日期: 20200604，专利号：ZL202010498424.0，授权日期：20200925，授权公告号：CN111707206A。
(7) 发明专利，张涛;李见奇;王敬轩;王珀琥;佟成国;耿涛;王鹏飞;苑立波，嵌入式铌酸锂或钽酸锂单晶芯光纤的制备方法及单晶芯光纤，申请日期：2017.04.19。申请号：CN201710258268.9，公开号：CN106980152A，公开日期：2017.07.25，专利号：ZL 201710258268.9，授权日期：2020.06.16。授权公告号 CN106980152B
(8) 发明专利，孙伟民;耿涛;张琼;闫奇;金夕人;陈旭东;蒋航;白星宇;赵闯;于乐，一种基于变径芯光纤的高光谱分辨率的积分视场单元系统，2018.05.24申请，申请号：CN201810507007.0，公开号：CN108761645A，公开日期：2018.11.06，专利号：ZL 201810507007.0，授权日期：2020.05.15。授权公告号 CN108761645B
(9) 发明专利，张涛;辛一凡;王敬轩;佟成国;李见奇;耿涛;王鹏飞;苑立波，申请日期：2017,04,19，申请号：CN201710258664.1，公开日期：2017,09,12，公开号：CN107151092A ，专利号：ZL 201710258664.1，一种掺杂单晶多芯光纤的制备方法及掺杂单晶多芯光纤，授权日期：2019.09.27。授权公告号CN107151092B
(10) 发明专利，孙伟民;麻镇宇;闫奇;蒋航;耿涛;吴宇;赵蓉;张怀智;陈旭东;金夕人;赵丽媛，一种利用能量法快速测量光纤出射焦比的系统，申请号：CN201710128176.9，申请日期：2017.03.06，专利号：ZL 201710128176.9，授权日期：2019.08.06，授权公告号 CN107063634B。
(11) 发明专利，孙伟民;姜春桐;谢天赐;胡耀升;秦壮;马羽;耿涛，一种光纤三维阵列式加速器射线场分析仪，申请号：CN201710969815.4，申请日期：20171018，专利号：ZL201710969815.4，授权日期：20190517，授权公告号CN107505646B。
(12) 发明专利，谢天赐;孙伟民;胡耀升;姜春桐;秦壮;马羽;耿涛;刘永军，一种可发射式远距离可分布测量辐射量的检测仪, 申请号：CN201710350074.1，申请日期：20170518，授权日期：20190305，授权公告号CN107167831B。
(13) 发明专利，耿涛;周宇;刘召军;耿仕新;苑立波;杨文蕾;薛人峰，一种实现光纤沿轴心旋转的机械结构，申请号：CN201610201518.0， 申请日期：2016.04.01，公开日期：2016.07.13，公开号：CN105750928A，专利号：ZL 201610201518.0，授权日期：2017.11.21，授权公告号CN105750928B。
(14) 发明专利，孙伟民;李婉婷;郭黎滨;卢春莲;麻镇宇;耿涛;段云菲，用于激光车削和磨削复合加工的强聚焦光学系统及加工方法，申请号：CN201510762082.8， 申请日期：2015.11.10，公开日期：2016.02.17，公开号：CN105328331A，专利号：ZL201510762082.8，授权日期：2017.08.04，授权公告号CN105328331B。
(15) 发明专利，孙伟民;闫奇;耿涛;黄宗军;付洋;胡琪浩;田赫;刘永军;关春颖，嵌入式多芯光纤瞄准器及定位装置，申请号：CN201510312469.3，申请日期：2015.06.09，专利号：ZL201510312469.3，授权日期：2017.01.04，授权公告号CN104898214B。
(16) 发明专利，国强;王强波;耿涛;许庆帅;阮国庆;付文宇;马瑗，一种基于STM8单片机智能控制型等离子空气净化器，申请号：CN201620578427.4，申请日期：20160612，专利号：ZL201620578427.4，授权日期：20161207，授权公告号：CN205783449U。
(17) 发明专利，苑立波;周宇;耿仕新;耿涛;杨文蕾;刘召军;薛人峰，一种用于多芯光纤熔融的双M形电加热装置，授权公告号：CN105807370A，授权公告日：20160727，申请号：CN201610168556.0，申请日：20160323。
(18) 发明专利，黄宗军;孙伟民;袁明;杨远;耿涛;刘晓颀;张建中;曾宪金;石帅，一种塑料光纤拉锥装置，授权公告号：CN102092132B，授权公告日：20130227，申请号：CN201010593465.4，申请日：20101217。
(19) 发明专利，苑立波;耿涛;杨军，双芯光纤集成式加速度计及测量方法，授权公告号：CN101368978B，授权公告日：20101006，申请号：CN200810137256.1，申请日：20081007。
(20) 发明专利，苑立波;周爱;杨军;耿涛;刘彬彬，蘸粘式光纤液体分析方法及其专用分析装置，申请号：CN200810064011.0，申请日期：2008.02.19，专利号：ZL200810064011.0，授权日期：2010.02.10，授权公告号CN100588951C。
(21) 发明专利，孙伟民;朱齐丹;耿涛;夏桂华;张涛;戴强;张志林;王立辉;郭明磊，双曲面反射镜的多维全场光学校验装置，授权公告号：CN100541114，授权公告日：20090916，申请号：CN200710072553.8，申请日：20070724。
 

1.Wang J, Wang A, Chen X, Liu S, Xu X, Sun C, Yan Y, Yan Q, Wang S, Geng T, Sun W. An All Fiber Mach-Zehnder Interferometer Based on Tapering Core-Offset Joint for Strain Sensing [J]. IEEE Photonics Technology Letters, 2022, 34(1): 11-4.
 
2.Lu C, Xiang Z, Rui Z, Cao Z, Lv M, Wang S, Yi Y, Chen X, Li X, Sun C, Yan Y, Tong C, Geng T, Sun W. A compact fiber-based sensor for wide range strain measurement [J]. Optics & Laser Technology, 2022, 148.
 
3.JIN X, RUI Z, XIANG Z, LU C, ZHANG S, XU X, Lü M, MA Y, SUN C, YANG X, GENG T, SUN W, YUAN L. Ultrasensitive liquid level sensor based on slice-shaped composite long period fiber grating [J]. Chinese Optics Letters, 2022, 20(1).
 
4.Ma Y, Su C, Yi Y, Zhao M, Sun J, Wang S, Li X, Tao G, Yu S, Tong C, Sun W, Yuan L. A spiral-polished fiber sensor for strain and temperature measurement [J]. Applied Physics B, 2021, 127(6).
 
5.Chen X, Chen W, Liu Y, Liu S, Zhang S, Yan Q, Sun W, Geng T. Sensitivity-enhanced strain sensor with a wide dynamic range based on a novel long-period fiber grating [J]. IEEE Sensors Journal, 2021: 1-.
 
6.Niu H, Zhang S, Chen W, Liu Y, Li X, Yan Y, Wang S, Geng T, Sun W, Yuan L. Optical Fiber Sensors Based on Core-Offset Structure: A Review [J]. IEEE Sensors Journal, 2021, 21(20): 22388-401.
 
7.Niu H, Chen W, Liu Y, Jin X, Li X, Peng F, Geng T, Zhang S, Sun W. Strain, bending, refractive index independent temperature sensor based on a graded index multimode fiber embedded long period fiber grating [J]. Opt Express, 2021, 29(15): 22922-30.
 
8.Zhang S, Li X, Liu Y, Chen W, Niu H, Yan Q, Wang S, Li S, Geng T, Sun W, Yuan L. A MMF-TSMF-MMF Structure Coated Magnetic Fluid for Magnetic Field Measurement [J]. IEEE Photonics Technology Letters, 2021, 33(19): 1105-8.
 
9.Wang S, Ma Y, Chen W, Wang S, Yi Y, Li X, Lu C, Zhang S, Geng T, Sun W, Yuan L. Ultrasensitive Strain Sensor Based on Mach-Zehnder Interferometer With Bent Structures [J]. Journal of Lightwave Technology, 2021, 39(21): 6958-67.
 
10.Ma Y, Yi Y, Li X, Su C, Zhang M, Geng T, Sun W, Yuan L. Refractometer based on fiber Mach-Zehnder interferometer composed of two micro bending cores [J]. Opt Express, 2021, 29(20): 31443-54.
 
11.Ma Y, Sun J, Wang S, Li X, Yan Y, Tong C, Geng T, Sun W, Yuan L. Fiber Strain Sensor Based on Incline Plane-Shaped Long Period Fiber Grating Induced by CO2 Laser Polishing [J]. IEEE Journal of Quantum Electronics, 2021, 57(4): 1-5.
 
12.Ma Y, Zhao M, Sun J, Su C, Li X, Yi Y, Wang S, Geng T, Sun W, Yuan L. All-Fiber Strain Sensor Based on Dual Side V-Grooved Long-Period Fiber Grating [J]. IEEE Sensors Journal, 2021, 21(19): 21572-6.
 
13.Jin X, Lu C, Lin J, Chen X, Li X, Xiang Z, Yang X, Tong C, Yan Y, Geng T, Sun W, Yuan L. A strain sensor with low temperature crosstalk based on re-modulation of D-shaped LPFG [J]. Measurement, 2021, 177.
 
14.Xu X, Lu C, Jin X, Lv M, Sun C, Yan Q, Zhang S, Wang J, Rui Z, Xiang Z, Geng T, Sun W, Yuan L. A Vector Bending Sensor Based on a Core-Offset Long Period Fiber Grating Induced by an Arc-Discharge [J]. IEEE Sensors Journal, 2021, 21(21): 24129-33.
 
15.Jin X, Xiang Z, Lu C, Zhang S, Rui Z, Yi Y, Xu X, Wang J, Sun C, Geng T, Guan C, Yang X, Sun W, Yuan L. Highly sensitive vector bending sensor based on an embedded multimode D-shaped LPFG [J]. Opt Express, 2021, 29(15): 22813-22.
 
16.Hao Luo, Cuiting Sun, Tao Geng, Libo Yuan, A dark hollow beam generator based on special optical fiber with long period fiber grating, Optics & Laser Technology 134 (2021).
 
17.Senyu Wang, Yiwei Ma, Xiaoyang Li, Yang Yi, Cuiting Sun,Jingyu Lin, Chengguo Tong, Yuxiang Li, Tao Geng, Weimin Sun, and Libo Yuan, Highly sensitive torsion sensor based on triangular-prism_x005fshaped long-period fiber gratings, DOI:10.3788/COL202119.041202
 
18.Yiwei Ma, Xiaoyang Li, Senyu Wang, Yang Yi, Xudong Chen, Shuo Zhang, Shengjia Wang, Tao Geng, Chenguo Tong, Weimin Sun, Libo Yuan, Highly sensitive strain sensor based on a long-period fiber grating with chain-shaped structure, DOI: 10.1364/AO.404861.
 
19.Ma Y, Li X, Wang S, Yi Y, Chen X, Zhang S, Wang S, Geng T, Tong C, Sun W, Yuan L. Highly sensitive strain sensor based on a long-period fiber grating with chain-shaped structure [J]. Appl Opt, 2020, 59(33): 10278-82.
 
20.Shuo Zhang, Xiang Li, Huiwen Niu, Qi Yan, Cuiting Sun, Feng Peng, Yiwei Ma, Kai Zhang, Tao Geng, Wenli Yang, Weimin Sun, Libo Yuan, Few-mode fiber-embedded long-period fiber grating for simultaneous measurement of refractive index and temperature, Appl Opt 59(29) (2020) 9248-9253.
 
21.Yiwei Ma, Shenjia Wang, Xiaoyang Li, Yang Yi, Senyu Wang, Yuxiang Li, Tao Geng, Hognjai Zhu, Cuiting Sun, Shuo Zhang, Yue Li, Libo Yuan, Torsion and Temperature Sensor based on Polished MSM Structure, IEEE Photonics Technology Letters  (2020) 1-1.
 
22.Shuo Zhang, Sifan Deng, Zemin Wang, Tao Geng, Wenlei Yang, Cuiting Sun, Qi Yan, Yuxiang. Li, Chenguo Tong, Qianmg Dai, Weimin Sun, Libo Yuan, A Compact Refractometer With High Sensitivity Based on Multimode Fiber Embedded Single Mode-No Core-Single Mode Fiber Structure, Journal of Lightwave Technology 38(7) (2020) 1929-1935.
 
23.Shuo Zhang, Zemin Wang, Minyu Zhu, Le Li, Shenjia Wang, Song  Li, Feng Peng, Huiwen Niu, Xiang Li, Sifan Deng, Tao Geng, Wenlei Yang, Libo Yuan, A compact refractive index sensor with high sensitivity based on multimode interference, Sensors and Actuators A: Physical 315 (2020).
 
24.Cuiting Sun, Chupeng Lu, Xiren Jin, Xudong Chen, Qi Yan, Jinyu Lin, Xian Xu, Minyang Lv, S. Zhang, Yiwei Ma, Yinhua Zhang, Tao Geng, Weimin Sun, Zhongquan. Qu, Libo Yuan, A new sensor for simultaneous measurement of strain and temperature, IEEE Photonics Technology Letters  (2020) 1-1.

25.S. Zhang, T. Geng, H. Niu, X. Li, Y. Yan, C. Sun, S. Deng, Z. Wang, S. Wang, W. Yang, W. Sun, L. Yuan, All fiber compact bending sensor with high sensitivity based on a multimode fiber embedded chirped long-period grating, Opt Lett 45(15) (2020) 4172-4175.

26.Sengyu Wang, Yiwei Ma, Tao Geng, Cuiting Sun, Hongjia. Zhu, Xiang. Li, Yang Yi, Shuo. Zhang, Weimin Sun, Libo Yuan, Compact fiber strain sensor fabricated by a CO2 laser, Opt Lett 45(15) (2020) 4156-4159.

27.Cuiting Sun, Kai Zhang, Tao Geng, Chengguo Tong, Zhongquan Qu, Libo Yuan, Ran Wang, Xiren Jin, Weiliang Liu, Xudong Chen, Shuo Zhang, Qingzhu Zhu, Longzhen Chen, Yinghua Zhang. A Novel Twist Sensor Based On Long-period Fiber Grating Written In Side-helical Polished Structure. IEEE Photonics Technology Letters, 2020, 32(5): 275-278.

28.Zhang Shuo,Deng Sifan,Geng Tao,Sun Cuiting,Niu Huiwen,Li Xiaoyang,Wang Zemin,Li Xiang,Ma Yiwei,Yang Wenlei,Tong Chengguo,Yuan Libo. A miniature ultra long period fiber grating for simultaneous measurement of axial strain and temperature. Optics & Laser Technology,2020,126(C).

29.Cuiting Sun, Ran Wang, Xiren Jin, Zemin Wang, Weiliang Liu, Shuo Zhang, Yiwei Ma, Jingyu Lin, Yue Li, Tao Geng, Weimin Sun, Zhongquan Qu, Libo Yuan.A new phase-shifted long-period fiber grating for simultaneous measurement of torsion and temperature.Chinese Optics Letters,2020,18(02):43-47.

30.Shuo Zhang, Tao Geng, Weimin Sun, Libo Yuan, Sifan Deng, Zemin Wang, Wenlei Yang, Cuiting Sun, Qi Yan, Yuxiang Li, Chengguo Tong, Qiang Dai. A Compact Refractometer with High Sensitivity Based on Multimode Fiber Embedded Single Mode-No Core-Single Mode Fiber Structure. Journal of Lightwave Technology, 2019: 1-1.

31.Weiliang Liu,Hang Du,Xingyu Bai,Xudong Chen,Tao Geng,Chengguo Tong,Cuiting Sun,Xiren Jin,Yue Li,Yuxiang Li,Chunlian Lu,Libo Yuan. A S-shaped long-period fiber grating with ultra-high strain sensitivity. Sensors and Actuators A-physical, 2019.

32.Qi Yan,Tao Geng,Ying-Hua Zhang,Qing-Zhu Zhu,An-Zhi Wang,Jia-Bin Wang,Xu-Dong Chen,Xi-Ren Jin,Chuang Zhao,Le Yu,Wei-Min Sun,Xiang-Qun Cui. RMSTCAF: The rapid measurement system for transmission characteristics of astronomical fibers. Measurement, 2019: 298-304

33.Shujie Duan, Xingyu Bai, Xiyuan Kang, Hang Du, Weiliang Liu, Tao Geng, Chengguo Tong, Cuiting Sun, Xiren Jin, Chunlian Lu, Yuxiang Li, Weimin Sun, Libo Yuan.High Sensitive Torsion Sensor Based on Cascaded Pre-Twisted Taper and Multi-Mode Fiber Sheets.IEEE Photonics Technology Letters,2019,31(19):1588-1591.
 
34.Zhang Shuo,Deng Sifan,Wang Zemin,Sun Cuiting,Chen Xudong,Ma Yiwei,Zhao Lei,Lu Chunlian,Geng Tao,Yang Wenlei,Yuan Libo. A miniature SMS-LPG bending sensor with high sensitivity based on multimode fiber embedded-LPG. Sensors and Actuators A-physical, 2019: 31-

35.Qi Yan,Tao Geng,Hang Jiang,Chuang Zhao,Ying-Hua Zhang,An-Zhi Wang,Jia-Bin Wang,Xi-Ren Jin,Xu-Dong Chen,Chun-Lian Lu,Liang Wang,Zhi-Xin Huang,Jing-Dong Zhuang,Song Wang, Wei-Min Sun,Xiang Quan Cui,A fiber bundle structure with uniform transmission characteristics for high-density astronomical optical cables,RESEARCH IN ASTRONOMY AND ASTROPHYSICS,2019,VOL.19.NO.8

36.Weiliang Liu,Cuiting Sun,Tao Geng,Xiren Jin,Xudong Chen,Le Yu,Chuang Zhao,Xingyu Bai,Shujie Duan,Hang Du,Libo Yuan,A New Spring-Shaped Long-Period Fiber Grating With High Strain Sensitivity,IEEE PHOTONICS TECHNOLOGY LETTERS,2019，VOL.31.NO.14

37.Pengfei Wang,Suo Zhang,Wangruoning,Farrell Gerald,Zhangmeng,Tao Geng,Lewis,Elfed,Ke Tian,Temperature-insensitive refractometer based on an RI-modulated singlemode-multimode-singlemode fibre structure,OPTICS EXPRESS,2019,DOI: 10.1364/OE.27.013754

38.Wenlei Yang,Shuo Zhang 1,Tao Geng 1,Le Li,Guoan Li,Yijia Gong,Kai Zhang,Chengguo Tong,Chunlian Lu,Weimin Sun,Libo Yuan,High Sensitivity Refractometer Based on a Tapered-Single Mode-No Core-Single Mode Fiber Structure,SENSORS,DOI: 10.3390/s19071722

39.Weiliang Liu,Cuiting Sun,Yiwei Ma,Xingyu Bai,Le Yu,Shujie Duan,Hang Du,Chuang Zhao,Chunlian Lu,Lei Zhao,Tao Geng,Libo Yuan,A Highly Sensitive Torsion Sensor With a New Fabrication Method,IEEE PHOTONICS TECHNOLOGY LETTERS,2019，VOL.31.NO.6

40.CuiTing Sun,ZhiXing Han,Suo Zhang,SuJie Duan,XiRen Jin,XuDong Chen,Chong Yao,Tao Geng,ZhiLin Zhang,ZhongQuan Qu,A micro MMF layer embedded in LPFG for simultaneous measurement of curvature and temperature,OPTICAL FIBER TECHNOLOGY,48（2019）134-137

41.Xiren Jin,Cuiting Sun,Shujie Duan,Weiliang Liu,Guoan Li,Shuo Zhang,Xudong Chen,Lei Zhao,Chunlian Lu,Xinghua Yang,Tao Geng,Weimin Sun,Libo Yuan,High Strain Sensitivity Temperature Sensor Based on a Secondary Modulated Tapered Long Period Fiber Grating. IEEE Photonics Journal, 2019, 11(1): 1-8.

42.Weiliang Liu, Shujie Duan, Hang Du, Hang Jiang, Cuiting Sun, Xiren Jin, Lei Zhao, Tao Geng, Chengguo Tong , Libo Yuan,A new ultra long-period fiber grating for measuring torsional characteristics. Journal of Modern Optics, 2019, 66(11): 1215-1218.

43.Shujie Duan,Weiliang Liu,Cuiting Sun,Hang Jiang,Chong Yao,Kai Zhang,Xingyu Bai,Wen Wang,Cunlian Lu,Tao Geng,Feng Peng,Libo Yuan,High Sensitive Directional Twist Sensor Based on a Mach–Zehnder Interferometer. IEEE Photonics Journal, 2018, 10(6): 1-7.

44.Zhihang Han,Cuiting Sun,Xiren Jin,Hang Jiang,Chong Yao,Shuo Zhang,Weiliang Liu,Tao Geng*,Feng Peng**, Weimin Sun,and Libo Yuan,A polarization-independent torsion sensor based on the near-helical long period fiber grating. Chinese Optics Letters,2018,16(10).

45.Chengguo Tong,Xudong Chen,Yu Zhou,Jiang He,Wenlei Yang,Tao Geng,Weimin Sun,Libo Yuan,Ultra-long-period fiber grating cascaded to a knob-taper for simultaneous measurement of strain and temperature. Optical Review, 2018, 25(3): 295-300.

46.Qi Yan,Weiliang Liu,Shujie Duan, Cuiting Sun,Shuo Zhang,Zhihang Han,Xiren Jin,Lei Zhao,Tao Geng,Weimin Sun,Libo Yuan,A cascade structure made by two types of gratings for simultaneous measurement of temperature and strain. Optical Fiber Technology, 2018: 105-108.

47.Cuiting Sun,Tao Geng,Jiang He,Ai Zhou,Wenlei Yang,Xiren Jin,Xudong Chen,Yu Zhou,Qihao Hu,Libo Yuan,High Sensitive Directional Torsion Sensor Based on a Segmented Long-Period Fiber Grating,IEEE PHOTONICS TECHNOLOGY LETTERS,2017,29(24):2179-2182.

48.Tao Geng #, Shuo Zhang, Feng Peng, Wenlei Yang*, Cuiting Sun, Xudong Chen, Yu Zhou, Qihao Hu, Libo Yuan, A Temperature-Insensitive Refractive Index Sensor Based on No-Core Fiber Embedded Long Period Grating, Journal of Lightwave Technology, 2017, 35(24):5391-5396

49.Qihao Hu#, Shuo Zhang, Wenlei Yang*, Tao Geng*, Weimin Sun, Cuiting Sun, Xiren Jin, Libo Yuan, Highly sensitive curvature sensor based on long period fiber grating with alternately splicing multiple single/multimode structure, Optical Fiber Technology , 2017, 37:69-73

50.Jiwen Cui#*, Hong Dang#, Kunpeng Feng#, Wenlei Yang#, Tao Geng, Yang Hu, Yuanhang Zhang, Dong Jiang, Xudong Chen, Jiubin Tan, Stimulated Brillouin scattering evolution and suppression in an integrated stimulated thermal Rayleigh scattering based fiber laser, Photonics Research , 2017, 5 (3) :233-238

51.Ke Tian#, Yifan Xin, Wenlei Yang, Tao Geng, Jing Ren, Ya-Xian Fan, Gerald Farrell, Elfed Lewis, Pengfei Wang*，A curvature Sensor Based on Twisted Single-Mode–Multimode–Single-Mode Hybrid Optical Fiber Structure, Journal of Lightwave Technology, 2017, 35(9): 1725-1731

52.Tao Geng#, Jiang He, WenLei Yang*, XuDong Chen, MaoWei An, CuiTing Sun, XiRen Jin, Libo Yuan, Modal Interferometer Using Three-Core Fiber for Simultaneous Measurement Strain and Temperature, IEEE Photonics Journal, 2016, 8(4): 68039081-8

53.Tao Geng#, Jian Li, Wenlei Yang*, Maowei An, Hongyi Zeng, Fan Yang, Zhengji Cui, Libo Yuan, Simultaneous measurement of temperature and strain using a long-period fiber grating with a micro-taper, Optical Review, 2016, 23:657-661

54.Hongyi Zeng#, Tao Geng*, Wenlei Yang*, Maowei An, Jian Li, Fan Yang, Libo Yuan, Combining Two Types of Gratings for Simultaneous Strain and Temperature Measurement, IEEE Photonics Technology Letters, 2016, 28(4), 477-480

55.Tao Geng, Tao Liu, Feng Peng, Qiang Dai, and Yuan Yang.Research on vibration measurement of a cantilever beam by twin-core fiber. Proc. SPIE 7283, 72833N (2009) （EI收录）

56.Geng Tao, Liu Tao, Peng Feng, Dai Qiang, Yang Yuan Research on Vibration Measurement of a Cantilever Beam by Twin-core Fiber. AOMATT 2008. （EI收录）

57.Tao Zhang, Xiao-Qi Liu, Tao Geng, Wei-Min Sun, and De-Cai Ma. Investigation of structure and optical properties of Nd, Zn double-doped LiNbO3 crystalsProc. SPIE 6827, 68271G (2007) （EI收录）
 
58.Tao Geng, Da-Bo Liu, Zhi-Yuan Jiang, Kun Bi, Tao Zhang, and Qiang Dai. Study of the image quality based on MTF in volume hologram storage system. Proc. SPIE 6827, 68271C (2007) （EI收录）

59.Tao Geng, Tao Zhang, Li Song, Zhao Zhuang, Jiang Zhi Yuan, Bi Kun, and Peng Feng. Research of laser Doppler velocimetry based on DSPs.Proc. SPIE 6723, 672333 (2007) （EI收录）

60.Qiang Dai, Tao Geng, Hu Deng, Wei-he Ren, and Jia-jie Liu. Virtual orthogonal grid method for calibrating structured light binocular vision measurement system. Proc. SPIE 6723, 672349 (2007) （EI收录）

61.Teng DongDong; Wang Biao; Geng Tao; Yuan Wei; Ling FuRi. Volume holographic optical correlator based on fractal-space/shift multiplexing. Optik. 2006, 117: 546-548（SCI、EI收录）

62.Tao Geng, FuRi Ling, Biao Wang, Teng DongDong, and Wei Yuan. Nonvolatile holographic storage in LiNbO3:Mn:Ce:Cu crystal. Proc. SPIE 6040, 60402C (2005) （EI收录）
 
63.苑立波 耿涛  杨军. 双芯光纤集成式加速度计. 中国发明专利.

64.耿涛 彭峰 孙伟民 姜志远 张涛. 多重体光栅等衍射效率写入方法研究. 光学学报. 2009,29(6):316-319.

65.耿涛, 王彪, 滕东东, 袁威, 凌福日.调制传递函数在体全息存储系统中的应用.光学技术2006,32(5):660-662（EI收录）

66.耿涛, 王彪, 滕东东, 袁威, 凌福日. 体全息存储系统中的相关识别.长春理工大学学报2006,29(1):35-37

(1) 2019年，耿涛（指导教师），段晨阳，陈宏洲，李雨霏， “第七届全国大学生光电设计竞赛东北赛区暨第三届东北地区大学生光电设计竞赛决赛”获得银奖。
(2) 2019年，耿涛（指导教师），简江伟，刘宇翔，付豪，“第七届全国大学生光电设计竞赛东北赛区暨第三届东北地区大学生光电设计竞赛”获得一等奖。
(3) 2018年，耿涛，“第二届东北地区大学生光电设计竞赛”获得最佳指导教师奖。
(4) 2015年，耿涛，“黑龙江省物理学会理事”。
(5) 2014年，耿涛，“哈尔滨工程大学2014年度本科教学优秀主讲教师”获得三等奖。
(6) 2014年，耿涛，“哈尔滨工程大学2014届学士学位论文工作校级检查专家”。
(7) 2014年，耿涛，“哈尔滨工程大学2014年度研究生教学优秀授课教师”获得二等奖。
(8) 2012年，耿涛，“哈尔滨工程大学2011年度研究生教学优秀青年授课教师奖”。
(9) 2011年，耿涛，“哈尔滨工程大学2012届本科生毕业设计（论文）工作检查专家”。
(10) 2011年，耿涛，“哈尔滨工程大学2010年研究生教学优秀授课教师”获得二等奖。
(11) 2009年，孙伟民，刘志强，孟霆，王俊一，耿涛，“工科本科毕业设计质量保证和评价体系研究”获得黑龙江省优秀教学成果二等奖。
(12) 2007年，孙伟民，张志林，耿涛，刘强，曾佑民，李小梅，李颖娟，万众，“光纤水质检测及液体成份测试系统研究”获哈尔滨市科技进步二等奖
(13) 2009年，孙伟民，刘志强，孟霆，王俊一，耿涛，“工科本科毕业设计质量保证和评价体系研究”获得黑龙江省优秀教学成果二等奖。
(14) 2007年，耿涛，光纤水质检测及液体成分测试系统研究获得“科学技术奖”二等奖。