一、团队名称

飞秒激光微加工与光纤传感

二、团队简介

飞秒激光微加工与光纤传感研究团队，成立于2022年，隶属于深圳技术大学城市交通与物流学院，致力于前沿科技的研究与探索。团队在飞秒激光微加工、光纤传感和光纤激光等领域取得了显著的科研成果。团队秉承“创新、协作、探索、卓越”的理念，不断推动科技进步，为国家和社会的发展贡献力量。

三、团队成员

团队负责人：王东宁教授，在飞秒激光微加工、光纤传感与光纤激光领域具有深厚的学术造诣和实践经验。

核心成员：包括陆建勋博士等，他们在各自的研究领域取得了突出的成果。

四、已有项目

1. 自然科学基金面上项目，61975192, 飞秒激光制备新型高温光纤传感器，2020/01-2024/12，直接经费59万元，在研，主持。

五、学术成果

在国内外知名学术期刊上发表论文16余篇，其中SCI收录论文16篇。

发布论文：

1. Xiaowen Chao and D. N. Wang*, “Ultra-short long-period fiber grating based on a micro air-channel structure”, Optics Letters, Vol.47, No.22, pp.5961-5964, 15 November, 2022

2. Ben Xu, Yun Guo, Xingchao Ma, Yingfang Zhang, Chun-Liu Zhao, and D. N. Wang*, “Highly Sensitive Fiber Relative Humidity Sensor Based on Tip Michelson Interferometer With Agarose Gel Coating”, IEEE Sensors Journal, Vol.23, No.2, pp.1139-1145, 15 January, 2023

3. Sanfei Wang, D. N. Wang*, and Ben Xu, “All-fiber saturable absorber based on slightly tapered graded index multimode fiber for conventional and bound soliton generation”, Applied Optics, Vol.62, No.6, pp.1504-1509, 20 February 2023

4. Yongli Mei, D. N. Wang*, Qiaoben Wang and Yan Zhang, “Whispering gallery mode microsphere resonator based on cylindrical air cavity coupling”, Optics Letters, Vol.48, No.7, pp.1594-1597, 1 April 2023

5. Q. B. Wang, D. N. Wang* and F. L. Lan, “Ultracompact optical fiber high temperature sensor based on angle polished fiber end face”, Microwave and Optical Technology Letters, 33731, April 2023

6. N. M. Jin, D. N. Wang*, S. L. Cai, Y. Q. Peng*, and Huifang Chen, “Saturable absorber for bound solitons generation based on tapered graded-index multimode fiber with ZnO coating”, Laser Physics Letters, Vol.20, No.6, 065102, 2023

7. Yufeng Fan, D. N. Wang* and Ben Xu, “Generation of conventional solitons and bound state solitons in a passively mode-locked fiber laser based on GIMF-NCF-GIMF structured saturable absorber”, Laser Physics Letters, Vol.20, No.6, 065107, 2023

8. Falong Lan, D. N. Wang*, and Huifang Chen, “Surface plasmon resonance sensor based on waveguides inscribed in no-core fiber”, IEEE Photonics Technology Letters, Vol.36, No.16, pp.903-906, 15 August 2023

9. Yaqi Tang, Chao Wang*, Xuefeng Wang, Meng Jiang, Junda Lao and Dongning Wang, “Dispersion Turning Attenuation Microfiber for Flowrate Sensing”, Sensors, Vol.23, 7279, 2023

10. J. W. Gao, D. N. Wang* and Ben Xu, “Highly improved refractive index sensitivity in fiber Mach-Zehnder interferometer based on two tapers”, IEEE Photonics Technology Letters, Vol.35, No.17, pp.935-938, 1 September 2023

11. Q. B. Wang and D. N. Wang*, “Ultracompact optical fiber sensor for inner diameter measurement”, Fiber and Integrated Optics, Vol.42, No.5, pp.151-161, September 2023

12. Bingjie Jin, D. N. Wang*, Ben Xu, Liang Chen and Kai Yang^*, “Optical fiber in-line Mach-Zehnder interferometer based on down-up tapers for refractive index measurement”, Optical Fiber Technology, Vol.80, 103427, October 2023

13. Juanjuan Rao, D. N. Wang*, Kai Yang*, Ben Xu, and Yan Zhang*, “Alignment-free coupling in whispering gallery mode resonator based on a tapered capillary”, IEEE Photonics Technology Letters, Vol.35, No.22, pp.1211-1214, 15 November 2023

14. Xingchao Ma, Fengping Zhao, Ben Xu, Chun Liu Zhao, Huifang Chen, D. N. Wang, and Shangzhong Jin, “High-Sensitivity and Fast-Response Humidity Sensor Based on a Simple Fiber-Tip Interferometer With Thin Agarose Gel Coating”, IEEE Journal of Lightwave Technology, Vol.41, No.21, pp.6824-6830, November 1, 2023

15. Qiaoben Wang and D. N. Wang*, “Narrow rectangular slit in optical fiber core for ultrasensitive refractive index measurement”, Optical Fiber Technology, Vol.83,103583, March 2024

16. Juanjuan Rao, D. N. Wang*, Ben Xu, and Kai Yang*, “A reflective whispering gallery mode microsphere resonator integrated with a thick-wall capillary tube”, IEEE Photonics Technology Letters, Vol.36, No.6, pp.409-412, 15 March 2024