基本情况：

叶梦渊，男，1989年生，湖北武汉人，现为中国地质大学（武汉）自动化学院副教授，入选2024年武汉英才青年优秀人才，中国地质大学（武汉）“地大学者--青年优秀人才“。主持并参与包括国家 973 计划子课题，国家自然科学基金项目、GF创新项目、企业合作项目、高校合作项目等。相关研究成果在国际光学权威期刊上累计发表数十篇，并在OSA、IEEE、SPIE主办的国际会议中多次做邀请报告。

 

招生信息：

所在课题组依托“复杂系统先进控制与智能自动化湖北省重点实验室”下属的“光电技术与仪器实验室”和“湖北省光谱与成像仪器工程技术研究中心”，研究方向包含微纳光电子器件、激光雷达芯片、高速光通信等。

课题组具备高性能的仿真平台、微纳光电子芯片及高速光通信测试平台，并与国内外多所知名高校（华科、重大、UBC、麦马）、企业（华为、三江航天）保持良好的合作关系，为学生提供合作交流的机会。

欢迎对相关领域有兴趣、对科研有热情的同学报考，表现优异者可推荐至国内外高校（华中科技大学、上海交通大学、UBC、麦克马斯特大学等）攻读博士学位。

代表性论文：

1.     M. Ye, G. Chen, D. Zeng, S. Zhou, and T. Zhu, "Integrated High-Order Mode Filtering using Cascaded Asymmetric Directional Couplers," IEEE Photonics Technology Letters, 1-1 (2026).

2.     M. Ye, G. Chen, S. Wu, Y. Liu, and T. Zhu, "Efficient and broadband dual-mode fiber-to-chip coupler via blazed subwavelength grating," Optics and Lasers in Engineering 196, 109401 (2026).

3.     M. Ye, G. Chen, Y. Li, Y. Liu, and T. Zhu, "Reconfigurable dual-mode optical filter with tunable bandwidth for multimode signal processing," Optics & Laser Technology 195, 114558 (2026).

4.     Y. Chen, W. Zhang, Z. Shen, Y. Long, M. Ye, Y. Yu, and C. Wang, "Optical Integrated Sensing and Communication Lidar Based on RBPSK-FMCW Joint Waveform and Optical Phased Array," Journal of Lightwave Technology, 1-7 (2026).

5.     W. Zhang, M. Ye, Y. Li, L. Liu, X. Guo, and Y. Yu, "Low-crosstalk high-order mode silicon fiber-chip coupler by utilizing apodized double part gratings with mode selective trident," IEEE Photonics Journal, 1-4 (2023).

6.     D. Zeng, M. Ye, Y. Chen, H. Ma, and J. Liu, "Wavelength Selective Mode Converter Using Grating Assisted Anti-reflection Contra-asymmetric Directional Couplers," in 2023 IEEE 8th Optoelectronics Global Conference (OGC)(2023), pp. 121-123.

7.     M. Ye, Y. Chen, J. Li, Y. Deng, J. Chen, W. Zhang, Y. Li, K. Hu, C. Xu, L. Liu, and Y. Yu, "Large steering range and low-loss integrated optical phased array with SiN-Si dual-layer non-uniform antenna," Opt. Express 31, 44564-44574 (2023).

8.     H. Ma, M. Ye, J. Liu, D. Zeng, and Y. Chen, "Dual-polarization Dual-mode Silicon 3dB Beam Splitter Based on Shallow Etched Multimode Interference Coupler," in 2023 IEEE 8th Optoelectronics Global Conference (OGC)(2023), pp. 96-98.

9.     L. Liu, M. Ye, Z. Yu, and W. Xue, "Notch Microwave Photonic Filter With Narrow Bandwidth and Ultra-High All-Optical Tuning Efficiency Based on a Silicon Nanobeam Cavity," Journal of Lightwave Technology 41, 5051-5058 (2023).

10.   L. Liu, M. Ye, and W. J. J. o. L. T. Xue, "Silicon-on-insulator-based narrowband microwave photonic filter with widely tunable bandwidth,"  41, 6341-6347 (2023).

11.   L. Liu, K. Fu, M. Ye, and J. Duan, "Silicon Photonic Crystal Ring Resonator With High-Quality-Factor," IEEE Photonics Technology Letters 35, 1227-1230 (2023).

12.   J. Liu, M. Ye, H. Ma, D. Zeng, and Y. Chen, "Polarization-independent Dual Mode Silicon Spot Size Converter Using Gradual Index Distributed Subwavelength Gratings," in 2023 IEEE 8th Optoelectronics Global Conference (OGC)(2023), pp. 141-143.

13.   M. Ye, W. Zhang, Y. Li, L. Liu, X. Guo, and Y. J. I. P. T. L. Yu, "Efficient dual-mode fiber-chip edge coupler using an adiabatic mode evolution trident,"  34, 1234-1237 (2022).

14.   M. Ye, W. Zhang, Y. Li, L. Liu, X. Guo, and Y. Yu, "Efficient Dual-Mode Fiber-Chip Edge Coupler Using an Adiabatic Mode Evolution Trident," IEEE Photonics Technology Letters 34, 1234-1237 (2022).

15.   M. Ye, W. Zhang, Y. Li, L. Liu, X. Guo, and Y. Yu, "Efficient dual-mode fiber-chip edge coupler using an adiabatic mode evolution trident," IEEE Photonics Technology Letters, 1-1 (2022).

16.   M. Ye, Y. Li, W. Zhang, L. Liu, Y. Shi, and Y. Yu, "Multi-Mode Transmitter Based on Silicon Microring Modulators," IEEE Photonics Journal 14, 1-4 (2022).

17.   M. Ye, Y. Li, Z. Chen, L. Zhang, L. Liu, and Y. Yu, "Dual-Mode Silicon Ring Resonator Based on Subwavelength Grating Directional Couplers," IEEE Photonics Journal 14, 1-4 (2022).

18.   L. Liu, C. Ma, M. Ye, Z. Yu, W. Xue, Z. Hu, and J. Li, "Photonic crystal nanobeam cavity with a high experimental Q factor exceeding two million based on machine learning," Journal of Lightwave Technology, 1-9 (2022).

19.   L. Liu, Z. Hu, M. Ye, Z. Yu, C. Ma, and J. Li, "On-Chip Refractive Index Sensor With Ultra-High Sensitivity Based on Sub-Wavelength Grating Racetrack Microring Resonators and Vernier Effect," IEEE Photonics Journal 14, 1-7 (2022).

20.   X. Guo, Z. Li, H. Chen, Y. Li, M. Ye, X. Zhang, and Y. Yu, "Two-dimensional silicon optical phased array with large field of view," Opt. Express 30, 28049-28056 (2022).

21.   W. Zhang, M. Ye, and Y. Li, "Dual-mode FMF to SOI chip edge coupler," in Asia Communications and Photonics Conference(Optical Society of America, 2021), p. T4A. 242.

22.   Q. Zhang, M. Ye, L. Zhang, and Z. Chen, "Ultra-compact dual-mode silicon power splitter using sub wavelength gratings couplers," in AOPC 2021: Micro-optics and MOEMS(SPIE, 2021), pp. 124-129.

23.   M. Ye, C. Sun, Y. Yu, Y. Ding, and X. Zhang, "Silicon integrated multi-mode ring resonator," Nanophotonics 10, 1265-1272 (2021).

24.   Y. Li, M. Ye, W. Zhang, and L. Liu, "High Q silicon micro-ring resonator based on elliptical bending waveguides," in Asia Communications and Photonics Conference(Optical Society of America, 2021), p. T4A. 254.

25.   Z. Chen, M. Ye, L. Zhang, and Q. Zhang, "Compact mode-insensitive ring resonator based on SWG coupler and Euler bends," in AOPC 2021: Micro-optics and MOEMS(SPIE, 2021), pp. 144-149.

26.   D. E. Hagan, M. Ye, P. Wang, J. C. Cartledge, and A. P. Knights, "High-speed performance of a TDFA-band micro-ring resonator modulator and detector," Opt. Express 28, 16845-16856 (2020).

27.   M. Ye, Y. Yu, C. Sun, and X. Zhang, "On-chip data exchange for mode division multiplexed signals," Opt. Express 24, 528-535 (2016).

28.   M. Ma, K. Murray, M. Ye, S. Lin, Y. Wang, Z. Lu, H. Yun, R. Hu, N. A. Jaeger, and L. Chrostowski, "Silicon photonic polarization receiver with automated stabilization for arbitrary input polarizations," in CLEO: Science and Innovations(Optical Society of America, 2016), p. STu4G. 8.

29.   J. Zou, Y. Yu, M. Ye, L. Liu, S. Deng, and X. Zhang, "Ultra efficient silicon nitride grating coupler with bottom grating reflector," Opt. Express 23, 26305-26312 (2015).

30.   Y. Yu, M. Ye, and S. Fu, "On-chip polarization controlled mode converter with capability of WDM operation," IEEE Photonics Technology Letters 27, 1957-1960 (2015).

31.   M. Ye, Y. Yu, G. Chen, Y. Luo, and X. Zhang, "On-chip WDM mode-division multiplexing interconnection with optional demodulation function," Opt. Express 23, 32130-32138 (2015).

32.   M. Ye, Y. Yu, G. Chen, Y. Luo, L. Shi, and X. Zhang, "Photonics integrated circuit for WDM mode division multiplexing with phase to intensity demodulation," in CLEO: Science and Innovations(Optical Society of America, 2015), p. STh1F. 5.

33.   M. Ye, Y. Luo, Y. Yu, W. Yang, J. Zou, C. Sima, and X. Zhang, "SOI based photonic interconnection for multi-dimensional multiplexed system," in Optical Fiber Communication Conference(Optical Society of America, 2015), p. W1A. 6.

34.   W. Yang, Y. Yu, M. Ye, G. Chen, C. Zhang, and X. Zhang, "Phase regeneration for polarization-division multiplexed signals based on vector dual-pump nondegenerate phase sensitive amplification," Opt. Express 23, 2010-2020 (2015).

35.   J. Zou, Y. Yu, M. Ye, L. Liu, S. Deng, X. Xu, and X. Zhang, "Short and efficient mode-size converter designed by segmented-stepwise method," Opt. Lett. 39, 6273-6276 (2014).

36.   J. Zou, Y. Yu, W. Yang, Z. Wu, M. Ye, G. Chen, L. Liu, S. Deng, and X. Zhang, "An SOI based polarization insensitive filter for all-optical clock recovery," Opt. Express 22, 6647-6652 (2014).

37.   M. Ye, Y. Yu, J. Zou, W. Yang, and X. Zhang, "On-chip multiplexing conversion between wavelength division multiplexing–polarization division multiplexing and wavelength division multiplexing–mode division multiplexing," Opt. Lett. 39, 758-761 (2014).

38.   M. Ye, Y. Yu, W. Yang, J. Zou, Y. Qin, and X. Zhang, "On-chip multiplexing conversion between PDM and MDM," in Optical Fiber Communication Conference(Optical Society of America, 2014), p. Th4A. 4.

39.   M. Ye, Y. Yu, L. Xiang, B. Zou, X. Zhang, and D. Huang, "Proposal of a Si based device for multiplexing conversion between PDM and MDM," in Micro/Nano Materials, Devices, and Systems(International Society for Optics and Photonics, 2013), p. 89233H.

40.   W. Yang, Y. Yu, M. Ye, J. Zou, G. Chen, and X. Zhang, "Wide locking range and multi-channel clock recovery using a silicon microring resonator," IEEE Photonics Technology Letters 26, 293-296 (2013).

41.   L. Xiang, D. Gao, Y. Yu, M. Ye, B. Zou, and X. Zhang, "Silicon-Based integrated comb filter and demultiplexer for simultaneous WDM signal processing," IEEE Journal of Selected Topics in Quantum Electronics 20, 240-247 (2013).

42.   Y. Qin, Y. Yu, J. Zou, M. Ye, L. Xiang, and X. Zhang, "Silicon based polarization insensitive filter for WDM-PDM signal processing," Opt. Express 21, 25727-25733 (2013).