刘力

Professor   Supervisor of Doctorate Candidates   Supervisor of Master's Candidates

Honors and Titles : 第十四届国际光通信和网络会议(ICOCN2015)上获得最佳论文奖

Gender : Male

Alma Mater : 华中科技大学

Education Level : Faculty of Higher Institutions

Degree : Doctoral Degree in Engineering

School/Department : 自动化学院

Date of Employment : 2016-09-01

Business Address : 信息楼808

Email :


Education Background

2011.9 -- 2016.6

华中科技大学       光电信息工程       Doctoral Degree in Education       Doctoral Degree in Engineering

2007.9 -- 2011.6

华中科技大学       光电信息工程       Editor       学士学位

Work Experience

2016.9 -- Now

中国地质大学(武汉)      自动化学院

Personal Profile

刘力,男,现为中国地质大学(武汉)自动化学院教授、博士生导师,智能系统研究所副所长,入选中国地质大学(武汉)“地大学者--青年拔尖人才”计划。2019年至2020年,在美国麻省理工学院从事博士后研究工作。


主持国家自然科学基金面上项目、青年基金项目、湖北省自然科学基金、武汉市科技局应用基础前沿项目、国防基础加强项目和多个横纵向开放课题等,以第一\通讯作者身份在国际权威期刊IEEE Journal of Lightwave TechnologyOSA Optics Express、IEEE Photonics Technology Letters 等发表了SCI等论文60余篇,其中于第十四届国际光通信和网络会议(ICOCN)上获得最佳论文奖。

获得2023年第八届微波光子技术及应用会议的“中国微波光子学术新星”称号(全国仅6人),担任《半导体光电》和《红外与激光工程》等期刊的青年编委,担任国家自然科学基金委通信评审专家、教育部学位与研究生教育发展中心通信评审专家、湖北省和广东省科技厅专家等;担任Photonics首席客座编辑、Frontiers in Sensors客座编辑;担任“2022第三届全国光电子、光子材料与器件学术会议”学术委员会成员;担任多个国际期刊的审稿人,如OSA Optics Express、Optics Letters、IEEE Journal of Selected Topics in Quantum Electronics、IEEE Photonics Journal、IEEE Photonics Technology Letters。



主要研究方向

1. 人工神经网络、人工智能芯片、基于机器学习的芯片设计

2. 集成光子学、硅基光子学、光电传感器

3. 微波光子雷达、微波光子滤波器




学生培养:

2022级研究生龙杨灿,发表T1论文1篇。

2021级研究生张丽君,发表T2论文1篇。

2021级研究生廖贝,发表T2论文1篇。

2021级研究生吴涛,发表T2论文1篇,授权国家发明专利1项。

2021级研究生付康,发表T2论文1篇,授权国家发明专利1项。

2020级研究生陈晨,发表T1论文1篇,授权国家发明专利1项。

2019级研究生马成功,发表T1论文1篇,申请国家发明专利1项。

2019级研究生胡志豪,发表T2论文1篇,授权国家发明专利1项。

2018级研究生许灵欢,发表T2论文1篇,授权国家发明专利1项,获国家奖学金。

2018级研究生陈苗苗,发表T2论文1篇,申请国家发明专利1项,获国家奖学金。

2017级研究生陈梽, 发表T1论文1篇,申请国家发明专利1项。





主要代表性论文如下:

  1. Li Liu et al.,, “Notch microwave photonic filter with narrow bandwidth and ultra-high all-optical tuning efficiency based on a silicon nanobeam cavity,” Journal of Lightwave Technology, vol. 41, no. 15, pp. 5051-5058, 2023.

  2. Li Liu et al.,, “Silicon-on-insulator-based narrowband microwave photonic filter with widely tunable bandwidth, Journal of Lightwave Technology, vol. 41, no. 19, pp. 6341-6347, 2023.

  3. Li Liu et al., “Si3N4-based narrowband and high peak rejection microwave photonic filter with adjustable bandwidth,” Journal of Lightwave Technology, 42(5): 1580-1585, 2024.

  4. Li Liu et al., “Narrow passband tunable optical filter based on silicon high-Q rings assisted MZI structure,” Journal of Lightwave Technology, 42(6): 2049-2056, 2024.

  5. Li Liu et al., Photonic crystal nanobeam cavity with a high experimental Q factor exceeding two million based on machine learning, Journal of Lightwave Technology 40 (21), 7150-7158, 2022. 

  6. Li Liu et al., Tunable all-optical microwave filter with high tuning efficiency. Optics Express 28(5), 6918-6928 (2020).  

  7. Li Liu et al., All-optical tunable microwave filter with ultra-high peak rejection and low-power consumption. Optics Express 28(9), 13455-13465 (2020).    

  8. Li Liu, J. Yue, X. Fan, and W. Xue, On-chip passive optical diode with low-power consumption. Optics Express 26(25), 33463-33472 (2018).       

  9. Li Liu, Zhi Chen, Xing Jin, Yue Yang, Zhihua Yu, Jingjing Zhang, Lijun Zhang and Hong Wang, Low-power all-optical microwave filter with tunable centralfrequency and bandwidth based on cascaded opto-mechanical microring resonators, Optics Express 25(15): 17329~17342 (2017).               

  10. Li Liu, Yue Yang, Zhihua Li, Xing Jin, Wenqin Mo, Xing Liu, Low power consumption and continuously tunable all-optical microwave filter based on anopto-mechanical microring resonator, Optics Express 25(2): 960~971 (2017).   

  11. Li Liu et al.,  J. Lightwave Technol., vol. 41, no. 18, pp. 5820-5826, 2023.

  12. Li Liu et al., J. Lightwave Technol., vol. 41, no. 19, pp. 6126-6133, 2023.

  13. Li LiuHigh-Q silicon photonic crystal ring resonator based on machine learning, J. Lightwave Technol., 2024.

  14. Li Liu et al., Ultra-compact and ultra-low insertion loss silicon optical polarizer based on inverse design," IEEE Photonics Technology Letters 36(19), 1173 - 1176, 2024.

  15. Li Liu et al., “Programmable optical filter combining a FIR structure and intelligent algorithms," IEEE Photonics Technology Letters 36(19), 1169 - 1172, 2024.

  16. Li Liu (通讯),  Efficient Dual-Mode Fiber-Chip Edge Coupler Using an Adiabatic Mode Evolution Trident. IEEE Photonics Technology Letters, 34(22), 1234-1237, 2022.

  17. Li Liu (通讯),  Noise reduction based on adaptive prediction fitting algorithm for a heterodyne Φ-OTDR system. IEEE Photonics Technology Letters, 34(23), 1311-1314, 2022.

  18. Li Liu et al., Nanoparticle sensing based on high-Q silicon photonic crystal nanobeam cavity, Optics Comminications, 2025.

  19. Li Liu et al., On-Chip Refractive Index Sensor With Ultra-High Sensitivity Based on Sub-Wavelength Grating Racetrack Microring Resonators and Vernier Effect. IEEE Photonics Journal 14(5), 1-7, 2022.

  20. Li Liu (通讯), Multi-Mode Transmitter Based on Silicon Microring Modulators, IEEE Photonics Journal 14(4), 6640504, 2022.

  21. Li Liu (通讯), Dual-Mode Silicon Ring Resonator Based on Subwavelength Grating Directional Couplers. IEEE Photonics Journal, 14(5), 1-4, 2022.

  22. Li Liu (通讯), High Extinction Ratio and Large Bandwidth PCF Polarization Filter With Gold-Wires Coated by Monocrystalline Silicon. IEEE Photonics Journal, 14(4), 1-6, 2022.

  23. Li Liu (通讯), On-Chip Fano-Like Resonator With a High Slope and Low-Complexity Fabrication Processing, IEEE Photonics Journal 14 (1), 1-8, 2022.     

  24. Li Liu et al., Optical binary encoder and decoder with ultra-low power consumption. IEEE Photonics Technology Letters 32(17), 1113-1116 (2020).       

  25. Li Liu, M. Ye, Z. Yu, Ultra-high peak rejection all-optical microwave filter based on the opto-mechanical effect. IEEE Photonics Technology Letters 32(18), 1155-1158 (2020).         

  26. Li Liu et al.,  Low-power active tunable microwave photonic filter using photonic crystal nanocavities. IEEE Photonics Technology Letters, 32(16), 999-1002 (2020).         

  27. Li Liu, M. Ye, S. Liao, W. Xue, Silicon optical diode based on cascaded opto-mechanical microring resonators. IEEE Photonics Technology Letters, 32(15), 952-955 (2020).         

  28. Li Liu et al., Instantaneous microwave frequency measurement based on two cascaded photonic crystal nanocavities. IEEE Photonics Journal, 12(6), 4501809 (2020).       

  29. Li Liu et al.,  On-chip low-power Gray code generation based on opto-mechanical microring resonators. IEEE Photonics Journal, 12(3), 4500312 (2020).         

  30. L. Xu, Li Liu(通讯作者), M. Chen, M. Ye, All-silicon energy-efficient optical diode using opto-mechanical microring resonators. IEEE Photonics Journal, 12(3), 4501009 (2020).         

  31.  M. Chen, Li Liu(通讯作者), L. Xu, M. Ye, X. Jin, Z. Yu, On-Chip all-optical tunable filter with high tuning efficiency. IEEE Photonics Journal, 12(2), 7800510 (2020).               

  32. S. Liao, H. Bao, T. Zhang, J. Liu, X. Liao, Li Liu(通讯作者), Integrated optical power splitter with continuously adjustable power splitting ratio. IEEE Photonics Journal, 12(6), 7801513 (2020).         

  33. Li Liu, W. Xue, and J. Yue, Photonic Approach for Microwave Frequency Measurement Using a Silicon Microring Resonator. IEEE Photonics Technology Letters 31(2), 153-156 (2019).           

  34. Li Liu, Wei Xue, Xing Jin, Jin Yue, Zhihua Yu, Lina Zhou, Bandwidth and Wavelength Tunable All-Optical Filter Based on Cascaded Opto-Mechanical Microring Resonators. IEEE Photonics Journal 11(1), 7800210 (2019).             

  35. Li Liu, Jin Yue, and Zhihua Li, All-Optical Switch Based on a Fiber-Chip-Fiber Opto-Mechanical System With Ultrahigh Extinction Ratio, IEEE Photonics Journal 9(3): 1~8 (2017).         

  36. Li Liu ; Huaqing Qiu; Zhi Chen; Zhihua Yu , Photonic measurement of microwave frequency with low-error based on an optomechanical microring resonator, IEEE Photonics Journal 9(6): 5503611 (2017).           

  37. Li Liu Jianji Dong Xinliang Zhang Chip-integrated all-optical 4-bit Gray code generation based on silicon microring resonators, Optics Express 23(16): 21414~21423 (2015).           

  38. Li Liu, Jianji Dong, Dingshan Gao et al., On-chip passive three-port circuit of all-optical ordered-route transmission, Scientific Reports 5, 10190 (2015).           

  39. Li Liu, T. Yang, S. Liao and J. Dong, Photonic generation of millimeter-wave using a silicon microdisk resonator, Optics Communications 343, 115-120 (2015).

  40. Li Liu, Fan Jiang, Siqi Yan, et al. Photonic measurement of microwave frequency using a silicon microdisk resonator, Optics Communications 335, 266-270 (2015).

  41. Li Liu, Mengying He, and Jianji Dong, Compact continuously tunable microwave photonic filters based on cascaded silicon microring resonators, Optics Communications 363, 128-133 (2016).

  42. Li Liu, Ting Yang, and Jianji Dong, Microwave photonic filter with a continuously tunable central frequency using an SOI high-Q microdisk resonator, Chinese Physics B 9, 093201 (2014).

  43. Li Liu, Yunhong Ding, Xinlun Cai et al. Route-asymmetrical light transmission of a fiber-chip-fiber optomechanical system, Frontiers of Optoelectronics 1-8 (2016).

  44. Li Liu, Jianji Dong, Huaqing Qiu et al., "An all-silicon passive six-port circuit of all-optical ordered-route transmission" In CLEO: Science and Innovations pp. SM3G-4. Optical Society of America.

  45. Li Liu, Jianji Dong, Ting Yang et al., "Comparison analysis of microwave photonic filter using SOI microring and microdisk resonators"In SPIE OPTO pp. 898515-898515. International Society for Optics and Photonics.

  46. Li Liu, Jianji Dong, Dingshan Gao et al., "Integrated all-optical three-port circuit of ordered-route transmission” IEEE 2015 14th International Conference on Optical Communications and Networks ICOCN 2015: 1-3.  国际会议最佳论文奖

  47. Li Liu, Jianji Dong, Yunhong Ding et al., "Nonreciprocal light transmission based on the thermal radiative effect”IEEE 2015 14th International Conference on Optical Communications and Networks ICOCN  2015: 1-3.

  48. Li Liu, Jianji Dong, Mengying He et al., "Compact tunable microwave photonic filters based on cascaded microring resonators" IEEE 2015 International Topical Meeting on Microwave Photonics MWP 2015: 1-4.

  49. Jianji Dong, Li Liu et al. "Compact Notch Microwave Photonic Filters Using On-Chip Integrated Microring Resonators", IEEE Photonics Journal 52 5500307-5500307 (2013).

  50. 刘力董建绩闵书存 硅光非线性效应在数字光子回路中的应用[J]. 光通信研究 2015 2015  06: 11-15 48.   武汉邮电科学研究院主办期刊的特邀论文。