吴继旋

信息来源:威尼斯2017娱乐官网 编辑:王慧泉发布日期:2018-07-21浏览次数:944

吴继旋

性别:男

职称:讲师

邮箱:wjxjay@163.com; wujixuan@tiangong.edu.cn

专业:光学工程,信息与通信技术

研究方向一:光纤光子学

研究方向二:光通信传感技术

研究方向三:光电检测技术

工作经历:

2018.7-至今:在威尼斯人官网娱乐场-威尼斯2017娱乐官网从事科研和教学工作

发表论文:

1. J. Wu, X. Zhang, B. Liu, H. Zhang, and B. Song, “Square-microfiber-integrated biosensor for label-free DNA hybridization detection”, Sensors and Actuators B: Chemical, 252, 1125-1131, 2017.

2. J. Wu, H. Zhang, B. Liu, B. Song, Y. Li, and C. Yang, “Acoustooptic-Mode-Coupling-Based Whispering Gallery Mode Excitation in Silica-Capillary Microresonator”, Journal of Lightwave Technology, 35(2), 220-224, 2017.

3. J. Wu, Y. Miao, B. Song, W. Lin, H. Zhang, K. Zhang, B. Liu, and J. Yao, “Low temperature sensitive intensity-interrogated magnetic field sensor based on modal interference in thin-core fiber and magnetic fluid”, Applied Physics Letters, 10(25), 252402, 2014.

4. J. Wu, B. Liu, H. Zhang, B. Song, W. Lin, and Y. Li, “WGM Micro-Fluidic-Channel Based on Reflection Type Fiber-Tip-Coupled Hollow-Core PCFs”, IEEE Photonics Technology Letters, 28(22), 2565-2568, 2016.

5. J. Wu, Y. Miao, W. Lin, K. Zhang, B. Song, H. Zhang, B. Liu, and J. Yao, “Dual-direction magnetic field sensor based on core-offset microfiber and ferrofluid,” IEEE Photonics Technology Letters, 26(15), 1581-1584, 2014.

6. J. Wu, Y. Miao, W. Lin, B. Song, K. Zhang, H. Zhang, B. Liu and J. Yao, “Magnetic-field sensor based on core-offset tapered optical fiber and magnetic fluid”, Journal of Optics, 16(7), 075705. 2014.

7. J. Wu, Y. Miao, B. Song, K. Zhang, W. Lin, H. Zhang, B. Liu, and J. Yao, “Temperature-insensitive optical fiber refractometer based on multimode interference in two cascaded no-core square fibers”, Applied optics, 53(22), 5037-5041, 2014.

8. J. Wu, Y. Miao, B. Song, W. Lin, K. Zhang, H. Zhang, B. Liu, and J. Yao, “Simultaneous measurement of displacement and temperature based on thin-core fiber modal interferometer”, Optics Communications, 340, 136-140, 2015.

9. J. Wu, B. Liu, H. Zhang, and B. Song, “Adsorption detection for Poly-lysine biomolecules based on high-Q silica capillary whispering gallery mode microresonator”, Measurement Science and Technology, 28(11), 115103, 2017. 2017.

10. Y. Miao, J. Wu, W. Lin, B. Song, H. Zhang, K. Zhang, B. Liu, and J. Yao, “Magnetic field tunability of square tapered no-core fibers based on magnetic fluid”, Journal of Lightwave Technology, 32(23), 3998-4003, 2014.

11. Y. Miao, J. Wu, W. Lin, K. Zhang, Y. Yuan, B. Song, H. Zhang, B. Liu, and J. Yao, “Magnetic field tunability of optical microfiber taper integrated with ferrofluid”, Optics express, 21(24), 29914-29920, 2013.

12. B. Song, H. Zhang, B. Liu, W. Lin, and J. Wu, “Label-free in-situ real-time DNA hybridization kinetics detection employing microfiber-assisted Mach-Zehnder interferometer”, Biosensors and Bioelectronics, 81, 151-158, 2016.

13. Y. Li, H. Zhang, B. Liu, W. Lin, D. Yan, C. Yang, and J. Wu, “Laser-tuned whispering gallery modes in a silica-based microsphere resonator integrated with ethyl-orange-doped polyvinyl alcohol coating”, Sensors and Actuators B: Chemical, 238, 98-104, 2017.

14.H. Liu, H. Zhang, B. Liu, B. Song, J. Wu, and L. Lin, “Ultra-sensitive magnetic field sensor with resolved temperature cross-sensitivity employing microfiber-assisted modal interferometer integrated with magnetic fluids”, Applied Physics Letters, 109(4), 042402, 2016.

15.Y. Li, H. Zhang, B. Liu, J. Wu, B. Song, D. Yan, and C. Yang, “Tuning of whispering gallery modes in a magnetic-fluid-infiltrated silica capillary based on lateral pumping scheme”, Journal of Optics, 19(1), 015801, 2016.

16.B. Song, H. Zhang, Y. Miao, W. Lin, J. Wu and H. Liu “Highly sensitive twist sensor employing Sagnac interferometer based on PM-elliptical core fibers”, Optics Express, 23(12), 15372-15379, 2015.

17.Y. Miao, X. Ma, J. Wu, B. Song, H. Zhang, K. Zhang, B. Liu, and J. Yao, “Low-temperature cross-talk magnetic-field sensor based on tapered all-solid waveguide-array fiber and magnetic fluids”, Optics Letters, 40(16), 3905-3908, 2015.

科研项目:

1.参与国家自然科学基金面上项目(基于偶氮苯的复合周期性微结构光纤功能器件机理及应用研究)

2.参与国家自然科学基金面上项目(微结构光纤回音壁模式机理及应用的研究)

3.参与国家重大科研仪器研制项目(基于微波光子技术的卫星激光通信多普勒频移模拟器)

  


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