周斌

2024-03-14 10:13:11   来源:    点击:

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姓名: 周斌

职称:副研究员(副高) 香江学者

Tel:020-34725186转8311

Emailzhoubin_mail (at)163.com   bin.zhou(at)coer-scnu.org

 



个人简介(教育、工作经历,以及研究教学工作、荣誉等相关简介)

  周斌,男,汉族,1982年出生,博士,研究方向为光电检测。2006年7月获得浙江大学物理学学士学位,2011年7月获得浙江大学物理学光学专业博士学位。2012年10月起在华南师范大学先进光电子研究院从事教学研究工作。2014年9月获香江学者计划,在香港理工大学合作研究特种光纤拉制和应用。2017年获物理学副研究员(副高)职称。    

研究领域

光学传感,光纤器件和非线性光学, 主要包括:

(1)光纤布里渊效应和受激布里渊慢光效应研究,基于光纤布里渊和光纤拉曼效应的分布式传感技术 (Investigation of the fiber Brillouin effect and the stimulated Brillouin scattering based slow light effect. Design; Fiber Brillouin and Raman effect based distributed sensing technology).

 (2)光纤光栅器件,光子晶体光纤器件的研究(Investigation of the fiber grating devices and PCF based devices).

(3)机器学习和图像识别在传感领域应用研究。周界入侵防范技术Machine learning and image recognition applications in the field of sensing. Perimeter intrusion prevention technology.

 

期刊论文:

1. B. Zhou,  L. Wang, L. Htein, Z. Liu, X. Chen, H. Y. Tam, Chao Lu, Highly Sensitive Small Pressure Monitoring Using Hyperelastic Silicone-Cladding/Silica-Core Composite Optical Fiber, IEEE Photonics Journal, 2017, 9(6),

2. Bin Zhou, C. Lu, B. M. Mao, H. Y. Tam, and S. He, Magnetic field sensor of enhanced sensitivity and temperature self-calibration based on silica fiber Fabry-Perot resonator with silicone cavity. Optics Express, 2017, 25(7), 8108-8114.

3. B. Zhou, X. Chen, S. Wu, Y. Zeng and Q. An, (2017, November). Hyperelastic Optical Fiber Fabry-Perot Cavity and its Sensitivity Enhancement Property. In Asia Communications and Photonics Conference (pp. Su2A-84). Optical Society of America.

4. B. Zhou, H. Jiang, C. Lu, S. He, Hot Cavity Optical Fiber Fabry–Perot Interferometer as a Flow Sensor With Temperature Self-Calibrated. Journal of Lightwave Technology, 2016, 34(21), 5044-5048.

5. Chengliang Wang, Bin Zhou*, Henghe Jiang, and Sailing He, Agarose Filled Fabry–Perot Cavity for Temperature Self-Calibration Humidity Sensing. IEEE Photonics Technology Letters, 2016, 28(19), 2027-2030.

6. Bin Zhou, L. Htein, Z. Liu, A. P. Zhang, C. Lu, and H. Y. Tam, "Novel soft-cladding optical fiber for distributed pressure sensing." OptoElectronics and Communications Conference (OECC) IEEE, (2016): 1-3.

7. Zhou, Bin; Lei, Fenfen; *Liu, Liu; Wang, Liang*,All-Optical-Fiber Orbital Angular Momentum Mode Generator With a Helical Phase Disk Inserted Between Fibers,Photonics Journal, IEEE,2015,7(7)。

8. 周斌*,黄国静,鲁昌涛,阮航,分布式光纤传感中用于快速检测的软硬件设计,华南师范大学学报(自然科学版),2015,(05):18-22

9. Zhou, Bin*,Jiang, Henghe,Wang, Renzhan,Lu, Changtao,Optical Fiber Fiber Fabry-Perot Filter With Tunable Cavity for High-Precision Resonance Wavelength Adjustment,Journal of Lightwave Technology,2015,33(14):2950-2954。

10. Zhou, Bin*,Chen, Zhuo,Zhang, Yebin,Gao, Shaorui,He, Sailing,Active fiber gas sensor for methane detecting based on a laser heated fiber bragg grating,IEEE Photonics Technology Letters,2014,26(11):1069-1072。

11.Zhou, Bin,Zhang, A. Ping*,He, Sailing,Gu, Bobo,Cladding-Mode-Recoupling-Based Tilted Fiber Bragg Grating Sensor With a Core-Diameter-Mismatched Fiber Section,IEEE Photonics Journal,2010,2(2):152-157。

12. Zhou, Bin*,Yan, Chunsheng,Guan, Zuguang,He, Sailing,Low coherent optical frequency domain reflectometry interrogates fiber Bragg grating sensors,Journal of Lightwave Technology,2010,28(21):3409-3414。

13. 周斌,刘国荣,管祖光,何赛灵,基于FBG的CH_4浓度传感系统,光电子-激光,2008,(03):378-380

14.Zhou, Bin*,Liu, Guo-Rong,Guan, Zu-Guang,He, Sai-Ling,Optical sensing system for the concentration of CH4 based on FBG,Journal of Optoelectronics - Laser,2008,19(3):378-380。

15. Zhou, Bin,Guan, Zuguang,Yan, Chunsheng,He, Sailing*,Interrogation technique for a fiber Bragg grating sensing array based on a Sagnac interferometer and an acousto-optic modulator,Optics Letters,2008,33(21):2485-2487。

16. Li, Ying,Zhou, Bin*,Zhang, Liang,He, Sailing,Tunable Fabry-Perot filter in cobalt doped fiber formed by optically heated fiber Bragg gratings pair,Optics Communications,2015,344:156-160。

17. Huang, Guojing,Zhou, Bin*,Chen, Zhuo,Jiang, Henghe,Xing, Xiaobo,Magnetic-field sensor utilizing the ferrofluid and thin-core fiber modal interferometer,IEEE Sensors Journal,2015,15(1):333-336。

18.Wang, Liang,Zhou, Bin*,Shu, Chester,He, Sailing,Distributed Temperature Sensing Using Stimulated-Brillouin-Scattering-Based Slow Light,IEEE Photonics Journal,2013,5(6)。

19.王丽琴*,周斌,孙艳秋,分布式光纤测温系统在船舶火灾报警系统中的应用,船舶电子工程,2013336):131-132

20. Wu, Shengnan*,Yan, Guofeng,Zhou, Bin,Lee, El-Hang,He, Sailing,Open-Cavity Fabry-Perot Interferometer Based on Etched Side-Hole Fiber for Microfluidic Sensing,IEEE Photonics Technology Letters,2015,27(17):1813-1816。 

21. Zhang, Yebin*,Yan, Guofeng,Zhou, Bin,Lee, El-Hang,He, Sailing,Reflective Optical Fiber Refractometer Based on Long-Period Grating Tailored Active Bragg Grating,IEEE Photonics Technology Letters,2015,27(11):1173-1176。

22.Xing, Xiaobo*,Zheng, Jiapeng,Li, Fengjia,Sun, Chao,Cai, Xiang,Zhu, Debin,Lei, Liang,Wu, Ting,Zhou, Bin,Evans, Julian,Chen, Ziyi,Dynamic behaviors of approximately ellipsoidal microbubbles photothermally generated by a graphene oxide-microheater,Scientific Reports,2014,4。

23.Mao, Barerem-Melgueba*,Wei, Yizhen,Zhou, Bin,Comparative study of fiber optic liquid level sensors based on long-period fiber gratings with different doping concentrations,Chinese Optics Letters,2012,10(5):050501-1-050501-4。

24. Zhu, Jing-Jing,Zhang, A. Ping*,Zhou, Bin,Tu, Feng,Guo, Jiang-Tao,Tong, Wei-Jun,He, Sailing,Xue, Wei,Effects of doping concentrations on the regeneration of Bragg gratings in hydrogen loaded optical fibers,Optics Communications,2011,284(12):2808-2811。

25. Wang, Liang,Zhou, Bin,Shu, Chester*,He, Sailing,Stimulated Brillouin scattering slow-light-based fiber-optic temperature sensor,Optics Letters,2011,36(3):427-429。

26.Xia, Tian-Hao*,Liu, Wei-Sheng,Zhou, Bin,Gu, Bo-Bo,Yan, Chun-Sheng,Quasi-distributed sensing network based on coherence multiplexing and spatial division multiplexing for coal mine security monitoring,Journal of Zhejiang University-Science C(Computers and Electronics),2010,11(10):762-766。

27.Guan, Zu-Guang,Zhou, Bin,Liu, Guorong,He, Sailing,Quasi-distributed absorption sensing system based on a coherent multiplexing technique,IEEE Photonics Technology Letters,2007,19(10):792-794。

28.Zhou, Bin*,Liu, Weisheng,A novel multiplexing technique for a fiber bragg grating sensors array,Asia Optical Fiber Communication and Optoelectronic Exposition and Conference, AOE 2008,Shanghai,2008.10.30-2008.11.2。

29.Bin, Zhou*,Zuguang, Guan,Methane concentration monitoring system based on a pair of FBGs,2007 Asia Optical Fiber Communication and Optoelectronic Exposition and Conference, AOE,296-298,Shanghai,2007.10.17-2007.10.19。

30.Mao, Barerem-Melgueba*,Zhou, Bin,Liquid level measurement sensor using a long-period fiber grating,3rd Asia Pacific Optical Sensors Conference,Sydney, NSW, Australia,2012.1.31-2012.2.3。 

31.Mao, Barerem-Melgueba*,Zhou, Bin,Dopants concentration effects on the wavelength shift of long-period fiber gratings used as liquid level detectors,Asia Communications and Photonics Conference and Exhibition, ACP 2011,Shanghai,2011.11.13-2011.11.16。

32.Wang, Liang*,Zhou, Bin,Shu, Chester,He, Sailing,Temperature sensing using stimulated Brillouin scattering based slow light,Asia Communications and Photonics Conference and Exhibition, ACP 2010,479-480,Shanghai,2010.12.8-2010.12.12。

33. Gu, Bobo*,Zhou, Bin,A novel fiber length measurement technology based on an asymmetric interferometer incorporating an electron-optic modulator,2008 Asia Optical Fiber Communication and Optoelectronic Exposition and Conference, AOE 2008,Shanghai,2008.10.30-2008.11.2。

34.Xia, Tianhao,Zhou, Bin,Liu, Weisheng,Guan, Zuguang,A coal mine security monitoring system based on multiplexed fibre bragg grating sensors and coherence-multiplexing technique,Asia Optical Fiber Communication and Optoelectronic Exposition and Conference, AOE 2008,Shanghai,2008.10.30-2008.11.2。

35.Guan, Zu-G,Zhou, Bin,Liu, Guorong,He, Sailing,Coherence multiplexing of absorption sensors,6th IEEE Conference on SENSORS, IEEE SENSORS 2007,566-569,Atlanta,2007.10.28-2007.10.31。

 

项目

1.国家自然科学基金青年项目,61307053,“适用于光子轨道角动量通信的光纤和光纤器件的研究”, 2014/1-2016/1

2.香江学者计划,XJ2014027,“特种光纤:设计、制备与应用”,2015/01-2016/12  

3.横向课题(宁波绅乐电子有限公司),2014440002001085, “图像扫描设备中的嵌入式控制系统”,2016/7-2017/7

4.横向课题(广州市鑫金宝电子有限公司),, “高精度额温检测仪光学系统设计”,2017/8-2017/10

5.横向课题(深圳伊讯科技有限公司),, “光纤温度传感系统的研发”,2017/8-2018/6

6.国家博士后科学基金面上项目,2016M590794,“光纤分布式气体检测研究”, 2016.5-2018/5

7.国家博士后科学基金面上项目,2013M531866,“全光纤光子轨道角动量通信研究”,2013/5-2015/5

8.国家自然科学基金青年项目,60707020,“基于新型解调方案的光纤光栅网络”, 2008/1-2010/12

9.浙江省科技厅项目,2007C21159,“基于新型解调方案的光纤光栅多参量传感网络”,2007/3-2008/12

10.浙江大学基本科研业务计划,“用于大型建筑与结构安全监测的光纤光栅传感器及传感网络研究”, 2010.8-2011.12

 

专利列表

1. 陈卓,周斌,何赛灵,“一种全光学化的气体质量流量监测装置和方法”,2017.2.8-2037.2.28, ZL201420036757.6

2.Bin Zhou, Sune Svanberg, and Sailing He,“Permeable Optical Fiber for Gas Sensing” PCT/ CN2016/101522

3.Sune Svanberg, Guangyu Zhao, and Bin Zhou “Distributed optical fiber gas sensor”, PCT/ CN2016/101521

4.周斌,丁志成,孔炽斌,鲁昌涛,何赛灵,一种基于光纤光栅传感器的野外预警无线监测系统,2015.5.20-2025.1.9,中国,CN201520015530.3。

5.周斌,姜恒和,何赛灵,陈卓,高少锐,一种全光学化的流体质量流量监测装置,2015.4.25-2025.4.25,中国,ZL201420750002.8。

6.何赛灵,张森林,周斌,基于线性滤波器和光电探测器的光纤传感器,2014.8.20-2024.1.28,CN201420054532.9。

7.何赛灵,张森林,周斌,基于线性滤波器和光电探测器的光纤传感器及传感方法,2014.5.7-2034.1.28,CN201410041229.X。

8.陈卓,周斌,何赛灵,一种全光学化的气体质量流量监测装置和方法,2014.4.30-2034.1.24,CN201410036757.6。

9.周斌,何赛灵,基于受激布里渊慢光效应的分布式光纤传感器及传感方法,2014.1.29-2033.10.24,CN201310513662.4。

10.周斌,陈卓,何赛灵,高少锐,一种利用光热光纤进行甲烷浓度传感的装置和方法,2015.9.12-2035.9.12,中国,201310002985.7。

11.周斌,陈卓,何赛灵,高少锐,一种利用光热光纤进行甲烷浓度传感的装置,2013.7.10-2023.1.5,CN201320005149.X。

12.周斌,何赛灵,一种光纤光栅和光纤拉曼复合传感网络及其实现方法,2010.9.15-2030.3.30,CN201010136108.5。

13.周斌,何赛灵,一种光纤光栅和光纤拉曼复合传感网络,2010.11.24-2020.3.30,CN201020145192.2。

14.周斌,张阿平,何赛灵,一种高阶动态可调的色散补偿设备及色散补偿方法,2010.8.11-2030.1.12,CN201010039655.1。

15.周斌,张阿平,何赛灵,一种高阶动态可调的色散补偿设备,2010.9.8-2020.1.12,CN201020049756.2。

16.傅娇娇,孙兵,周斌,陈达如,高士明,利用多波长布里渊激光器产生微波信号的装置和方法,2010.8.18-2029.12.29,CN200910155858.4。

17.顾波波,周斌,张阿平,何赛灵,光纤断点定位装置,2010.6.2-2019.8.3,CN200920190226.7。

18.顾波波,周斌,张阿平,何赛灵,一种光纤断点定位装置及断点位置确定方法,2010.1.13-2029.8.3,CN200910101084.7。

19.何赛灵,周斌,李帅伟,一种频域光纤光栅传感网络解调的方法和设备,2008.12.10-2028.7.15,CN200810120021.1。

20.何赛灵,周斌,一种光纤光栅传感网络解调装置,2009.9.2-2018.7.15,CN200820121526.5。

21.何赛灵,周斌,顾波波,一种快速测量光纤长度的方法和设备,2008.12.10-2028.7.15,CN200810120025.X。

22.何赛灵,周斌,管祖光,夏天豪,一种高精度大范围测量光纤长度的方法和设备,2008.12.10-2028.7.15,CN200810120024.5。

23.何赛灵,周斌,李帅伟,一种频域光纤光栅传感网络解调装置,2009.9.2-2018.7.15,CN200820121525.0。

24.何赛灵,周斌,一种光纤光栅传感阵列解调的方法和设备,2008.12.10-2028.7.15,CN200810120022.6。

25.何赛灵,周斌,刘伟升,一种光纤光栅传感阵列解调装置,2009.5.20-2018.7.15,CN200820121527.X。

26.何赛灵,周斌,顾波波,一种快速测量光纤长度装置,2009.5.20-2018.7.15,CN200820121529.9。

27.何赛灵,周斌,管祖光,夏天豪,一种高精度大范围测量光纤长度装置,2009.5.20-2018.7.15,CN200820121528.4。

28.周斌,管祖光,何赛灵,一种光纤光栅传感网络解调的方法和设备,2008.5.5-2028.5.5,ZL200810061489.8。

29.刘国荣,周斌,管祖光,何赛灵,基于光纤布拉格光栅的甲烷浓度传感的方法和设备,2007.1.31-2026.8.10,CN200610052880.2。