朱金龍,男,華中科技大學博士生導師。自2015年9月至2020年8月於美國伊利諾伊大學香檳分校從事博士後研究,並於2018年1月至2020年9月擔任伊利諾伊大學香檳分校—麻省理工學院聯合項目“高蒸汽壓工況環境掃描電子顯微鏡及其在微納尺度液滴冷凝高解析度成像中的運用”主要負責人。主要研究方向為光電混合/全光子/仿生晶片的設計、最佳化、製造技術、和在移動醫療裝備中的運用,以及面向工業 (主要包括半導體積體電路晶片的納米尺度測量,和物體3D結構掃描成像領域) 的光學量測技術與裝備研發。
基本介紹
- 中文名:朱金龍
- 外文名:Zhu Jinlong
- 國籍:中國
- 職稱:研究員
研究方向,主要成就,
研究方向
1. 光電混合/全光子/仿生晶片設計、最佳化、製造,及其在移動醫療中的運用;
2. 基於仿生/超表面/二維/一維材料的新型光電子集成器件;
3. 面向工業(主要包括半導體積體電路晶片的納米尺度測量,和物體3D結構掃描成像領域) 的光學量測技術與裝備研發。
主要成就
承擔的科研項目:
1. Cisco Systems Inc., Machine Learning for Engineering Design and Analysis using Multi-GPU Nodes on Cisco UCS, 2015.07-2020.07, 110萬美元, 已結題。
2. Foxconn Inc., Smart Metrology for Miniature Lens and Lens Assembly, 2019.10-2022.10, 100萬美元, 在研。
3. National Science Foundation (USA), Volumetric Optical Integrated Circuit Elements (VOICE), 2019.09-2022.08, 50萬美元, 已結題。
4. Strategic Research Initiative of Illinois, Massively Parallel Microscopes (MPMs) for investigating cells and semiconductor wafers, 2018.07-2019.07, 9.5萬美元, 已結題。
5. Zhejiang University – University of Illinois at Urbana-Champaign (ZJUI) Institute Research Program, Optical Mapping of the Dynamics of Cell Life-Cycle Evolution using a Photo-Electro-Thermo-Force Integrated Polarimetry (PETFIP) System, 2018.05-2019.05, 7.5萬美元, 已結題。
6. Strategic Research Initiative of Illinois, Realizing FOCI (Focusing Optical Concentrators that are Integrated), 2017.05-2018.05, 7.5萬美元, 已結題。
7. Nvidia Inc., Semiconductor Wafer Defect Inspection at the 5nm Technology Node and Beyond Using GPU-Accelerated Optical Microscopy & Nanoscopy, 2018.03-2019.03, 2萬美元, 已結題。
榮譽與獎勵:
1. Finalist for the Tingye Li Award
2. MNTL Fellowship
代表性論文:
1. J. Zhu, U. Aditi, and L. L. Goddard. “Visualizable detection of nanoscale objects using anti-symmetric excitation and non-resonance amplification,” Nature Communications 11 (2020), 2754.
2. J. Zhu, L. Zhang, K. L. Wilke, X. Li, E. N. Wang, and L. L. Goddard. “Quasi-Newtonian Scanning Electron Microscopy (QN-SEM) for Monitoring Material Dynamics in High-Pressure Gaseous Environments,” Advanced Science 7, 2001268 (2020).
3. J. Zhu, Y. Liu, X. Yu, R. Zhou, J. Jin, and L. L. Goddard, “Sensing sub-10-nm wide perturbations in background nanopatterns using optical pseudo electrodynamics microscopy (OPEM),” Nano Letters 19 (2019), 5347-5355.
4. J. Zhu and L. L. Goddard, “All-dielectric concentration of electromagnetic fields at the nanoscale: the role of photonic nanojets,” Nanoscale Advances 1 (2019), 4615-4643.
5. L. Zhang, J. Zhu*, K. L. Wilke, Z. Xu, L. Zhao, Z. Lu, L. L. Goddard, and E. N. Wang, “Enhanced environmental scanning electron microscopy using phase reconstruction and its application in condensation,” ACS Nano 13 (2019), 1953-1960.
6. J. Zhu, R. Zhou, L. Zhang, B. Ge, C. Luo, and L. L. Goddard. “Regularized pseudo-phase imaging for inspecting and sensing nanoscale features,” Optics Express 27 (2019), 6719-6733.
7. J. Zhu and L. L. Goddard. “Controlling photonic nanojets: from the standpoint of eigenmodes,” IEEE Photonics Technology Letters 30 (2017), 75-78.
8. J. Zhu and L. L. Goddard. “Spatial control of photonic nanojets,” Optics Express 24 (2016), 30444-30464.
9. J. Zhu, S. Liu, H. Jiang, C. Zhang and X. Chen. “Improved deep-etched multilayer grating reconstruction by considering etching anisotropy and abnormal errors in optical scatterometry,” Optics Letters 40 (2015), 471-474.
10. J. Zhu, S. Y. Liu, X. Chen, C. Zhang and H. Jiang. “Robust solution to the inverse problem in optical scatterometry,” Optics Express 22 (2014), 22031-22042.
