主要科研项目：

1.      国家自然科学基金项目：“基于光载波及光时域拉伸技术的超快电磁脉冲传感与检测方法的基础研究”（2018.1~2021.12）；

2.      武器装备预研基金项目：“******传感网络关键技术的研究”（2017.1~2019.12）；

3.      国家电网项目：“GIS特快暂态电磁信号一体化光纤测量系统研究-GIS特快暂态电磁信号一体化光纤测量系统研制”（2019.6~2021.9）；

4.     武器装备预研基金项目；“全光******技术”（2018.1-2018.12）；

5.      国家自然科学基金项目：“基于磁流体包覆微纳光纤环结构的电流传感技术的基础理论与关键技术的研究”（2014.1~2017.12）；

6.      武器装备预研基金项目；“******数据采集技术的研究”（2013.4~2015.4）；

7.      国家自然科学基金项目：“基于光波导耦合的微型宽带无电极式光纤电压检测关键技术的研究”（2011.1~2013.12）；

8.      武器装备预研基金项目；“******的形貌测量”（2010.4~2012.4）；

9.      国家自然科学基金项目：“基于多波长窄带光谱扫描技术的全光纤混合气体定量检测系统的研究”（2008.1~2010.12）；

10.      入选2010年度教育部新世纪人才支持计划；

11.      企业联合项目

课题组主要期刊论文：

1）       C. Han, H. Ding*, Q. Zhang and C. Zhao, "Miniature Fizeau Interferometric Thermometer," in IEEE Transactions on Instrumentation and Measurement，2020

2)          Hui Ding, Chen Chen*, Haichen Zhao, et al. Smartphone based multispectral imager and its potential for point-of-care test. Analyst, 2019.

3）       Chunyang Han, Hui Ding*, Chenyu Zhao, et al. Ultrafast Miniature Humidity Sensor Based on Single-sided Microsphere Resonator. Journal of Lightwave Technology, 2019.

4）   Hui Ding*, Ying Yue, Chunyang Han, et al. Nanoparticle self-assembled technique applied to a whispering-gallery-mode laser. Optics letters, 2019, 44(17): 4247-4250.

5)         Chunyang Han, Chenyu Zhao, Hui Ding*, et al. Spherical microcavity-based membrane-free Fizeau interferometric acoustic sensor. Optics letters, 2019, 44(15): 3677-3680.

6)         Hui Ding, Lyv Fangxing, Haicheng Zhao, Sub-Nyquist sampling method and its application in high-frequency electric-field measurement, Optical Engineering ,2019, 58(11).

7)         Shaofei Dong, Chunyang Han, Hui Ding*. Microfiber Based Interferometric Magnetic Field Sensor. IEEE Photonics Technology Letters,2018.30(6): p. 541-544.

8)         Chunxia Yue, Hui Ding*, Xiaofeng Liu. Magnetic-Field Measurement Based on Multicore Fiber Taper and Magnetic Fluid[J]. IEEE Transactions on Instrumentation and Measurement, 2018, 68(3): 688-692.

9)      Chunxia Yue, Hui Ding*, Wei Ding, et al. Weakly-coupled multicore optical fiber taper-based high-temperature sensor[J]. Sensors and Actuators A: Physical, 2018, 280: 139-144.

10)      Ding Hui, Yue Ying, Chunyang Han, et al. "Self-assembly three-dimensional optical devices: from microsphere to microlens array," Opt. Lett. 43, 2619-2622 (2018)

11)      Ding Hui, et al. "Smartphone-based spectrometer with high spectral accuracy for mHealth application." Sensors and Actuators A: Physical 274 (2018): 94-100

12)      Chen chen, Xianli Li, Hui Ding*. A Novel Wavelength Demodulation Technique for Interferometric Fiber Optic Sensor[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2017, 37(9): 2948-2953.

13)      Han Chunyang, Ding Hui，John Canning, et al. Exciting Surface Waves on Metal-Coated Multimode Optical Waveguides using Skew Rays. Optics letters, 2015. 41(22): p. 5353-5356.

14)      Chunyang Han, Fangxing Lyu, Hui Ding*, et al. Silica microwire-based interferometric electric field sensor. Optics letters, 2015, 40(16): 3683-3686.

15)      Fangxing Lyu, Chunyang Han, Hui Ding*, et al. Magnetic field sensor based on microfiber Sagnac loop interferometer and ferrofluid. IEEE Photonics Technology Letters, 2015, 27(22): 2327-2330.

16)      Chunyang Han, Hui Ding*, Fangxing Lyu. Demonstration of a refractometric sensor based on an optical micro-fiber three-beam interferometer. Scientific reports, 2014, 4: 7504.

17)      Xianli Li, Hui Ding*. A stable evanescent field-based microfiber knot resonator refractive index sensor. IEEE Photonics Technology Letters, 2014, 26(16): 1625-1628.

18)      Chunyang Han, Shaofei Dong, Hui Ding*, et al. A novel all-fiber electric field sensor based on tapered fiber-slab waveguide coupler. Instrumentation Science & Technology, 2014, 42(3): 278-289.

19)      Chunyang Han, Hui Ding*, Xianli L, et al. Temperature insensitive refractive index sensor based on single-mode micro-fiber Sagnac loop interferometer. Applied Physics Letters, 2014, 104(18): 181906.

20)      Xianli Li, Hui Ding*. A stable evanescent field-based microfiber knot resonator refractive index sensor[J]. IEEE Photonics Technology Letters, 2014, 26(16): 1625-1628.

21)      Xianli Li, Hui Ding*. Investigation of the thermal properties of optical microfiber knot resonators[J]. Instrumentation Science & Technology, 2013, 41(3): 224-235.

22)      Xianli Li, Hui Ding*. All-fiber magnetic-field sensor based on microfiber knot resonator and magnetic fluid. Optics letters, 2012, 37(24): 5187-5189.

23)      Shaofei Dong, Hui Ding*, Yiying Liu, et al. Investigation of evanescent coupling between tapered fiber and a multimode slab waveguide. Applied optics, 2012, 51(10): C152-C157.

24)      Hui Ding*, Xianli Li, Junhong Cui, et al. An all-fiber gas sensing system using hollow-core photonic bandgap fiber as gas cell. Instrumentation Science and Technology, 2011, 39(1): 78-87.

25)      Hui Ding*, Jianyong Liang. Application of near-infrared absorption spectrum scanning techniques in gas quantitative measurement. Spectroscopy and Spectral Analysis, 2010, 30(3): 667-671.

26)      Hui Ding*, Jianyong Liang. Application of PSO algorithm in wavelength detection of FBG sensors. Spectroscopy and Spectral Analysis, 2010, 30(2): 563-566.

会议论文：

1)         Ying Yue, Hui Ding*, Chen Chen, et al. 3D self-assembly technique applied to manufacturing microsphere whispering dallery mode laser，Xi'an China, 7-9 August, 2019:The 11th International Conference on Information Optics and Photonics (CIOP 2019).

2)         Chen Chen, Hui Ding*, Haicheng Zhao, et al. Smartphone based spectrometry platform for mobile health: from spectrometer to multispectral imager ，Xi'an China, 7-9 August, 2019:The 11th International Conference on Information Optics and Photonics (CIOP 2019).

3)         Chunyang Han, Hui Ding*, Canning John, et al. Light-induced Au surface modification[C]. Jeju, Republic of Korea, 24-28 April, 2017: 25th International Conference on Optical Fiber Sensors (OFS), 2017, 10323.

4)         Chunyang Han, Hui Ding*, Canning John, et al. Exciting Surface Waves on Metal-Coated Multimode Optical Waveguides using Skew Rays[C]. Haoran High-tech Mansion, Shanghai, China, 11-14 October, 2016: Asia Pacific Optical Sensors Conference (APOS), 2016: Th4A.52.

5)         Ying Yue, Zhongying Wu, and Hui Ding*. Radio Frequency Detection Based on Photonic Time-Stretched Technique. Asia-Pacific Optical Sensors Conference. Optical Society of America, 2016.10.

6)         Zhongying Wu，Fangxing Lv，Hui Ding*，A promising optoelectronic clock solution for time-interleaved ADC，8th International conference on Sensing Technology，Liverpool，2014.09.02-2014.09.04.

7)         Xianli Li，Fangxing Lv，Hui Ding*，An all-fiber current sensor based on magnetic fluid clad microfiber knot resonator，8th International conference on Sensing Technology，Liverpool，2014.09.02-2014.09.04.

8)        Xianli Li，Hui Ding*，Chunyang Han，A novel magnetic field sensor based on the combination use of microfiber knot resonator and magnetic fluid，the 2012 IEEE International conference on Condition monitoring and Diagnosis，Bali，2012.9.23-2012.9.27.