毛艺潜

时间:2024-05-07浏览:4357

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职称:研究员

办公室:九龙湖校区信息大楼1109

Emailyqmao@seu.edu.cn

个人主页https://seu.teacher.360eol.com/teacherBasic/preview?teacherId=28811

教育工作经历

2024.03至今,东南大学信息学院,毫米波全国重点实验室,副研究员,研究员
2021-2023,密歇根大学,电子工程系,博士后

2016-2020,杜克大学,电子与计算机工程系,博士
2012-2016,中国科学技术大学,地球物理系,学士

个人简介

长期从事智能计算和先进电磁算法研究,发表中科院一区论文20篇。入选华为“紫金青年学者”。提出的谱元谱积分算法被工业电磁仿真软件集成,应用于集成电路制造中大规模光刻问题求解。提出智能光刻实时计算方法,精度较台积电最新专利提高一倍。担任IEEE TAPIEEE TGRSIEEE JMMCTJ. Supercomput.等国际知名期刊审稿人。在IEEE MTT-SURSI AT-AP-RASCAPCAP等国际会议中作多次邀请报告。

研究方向

1.AI驱动的大规模电磁/多物理计算;

2.先进电磁算法/通用电磁求解器;

3.超分辨率电磁逆散射成像;

应用领域:集成电路光刻逆设计、目标散射特性计算、无损检测等。

欢迎对智能电磁/多物理计算和应用等感兴趣的同学加入课题组。常年招收1-2位博士生,3-4位硕士生。欢迎本科生参与SRTP和本科毕设。可推荐集成电路EDA就业机会和国外一流院校访问机会。

论文

5年期刊论文:

[1] J. L. Su, Z. X. Cai, Y. Mao, L. Chen, X. Y. Yu, Z. C.   Yu, Q. Ma, S. Q. Huang, J. Zhang, J. W. You and T. J. Cui, “Multi-Dimensional   Multiplexed Metasurface for Multifunctional Near-Field Modulation by   Physics-Driven Intelligent Design,” Advanced Science (Accepted).

[2] L. Chen, J. W. You, X. W. Wu, Q. Xiao, Z. Gu, S. L. Qin, T. J.   Peng, Q. Ma, Y. Q. Mao, J. N. Zhang and T. J. Cui, “Accurate   Modeling of Time-Varying Lumped Elements in Space-Time Metasurfaces,” IEEE   Transactions on Antennas and Propagation (Early access).
  [3] F.-F. Wang, K.-M. Li, Y. Mao and Q. H. Liu, "A   Hybrid Born Iterative Method for Diagnosis of Planar Arrays with   Amplitude-Only Far-Field Measurements," IEEE Antennas Wireless   Propag. Lett., 23(2), pp. 548-552, 2024.
  [4] Y. Mao, U. R. Patel, and E. Michielssen, “Wigner-Smith   Time Delay Matrix for Electromagnetics: Guiding and Periodic Systems with   Evanescent Modes,” IEEE Trans. Antennas Propag., 71(5), pp. 4406-4416,   2023.
  [5] Y. Mao, Y. Zhong, Q. Zhan, D. Wang, and Q. H. Liu, “A   Simple Way of Applying the Calderón Preconditioner to a Finite-Element   Boundary-Integral Method,” IEEE Trans. Antennas Propag., 71(6), pp.   5510-5515, 2023.  
  [6] Y. Mao, Q. Zhan, Q. Sun, D. Wang, and Q. H. Liu,   “Mesh-splitting Impedance Transition Boundary Condition for Accurate Modeling   of Thin Structures,” IEEE Trans. Antennas Propag., 71(5), pp.   4612-4617, 2023.
  [7] Y. Mao, U. R. Patel, and E. Michielssen, “Wigner-Smith   Time Delay Matrix for Electromagnetics: Systems with Material Dispersion and   Losses,” IEEE Trans. Antennas Propag., 71(6), pp. 5266-5275, 2023.  
  [8] L.-Y. Xiao, J.-N. Yi, Y. Mao, X.-Y. Qi, R. Hong, and Q.   H. Liu, “A Novel Optical Proximity Correction (OPC) System Based on Deep   Learning Method for the Extreme Ultraviolet (EUV) Lithography,” Progress   in Electromagnetics Research, 176, pp. 95-108, 2023.
  [9] U. R. Patel, Y. Mao, and E. Michielssen, “Wigner-Smith   Time Delay Matrix for Acoustic Scattering: Theory and Phenomenology,” J.   Acoust. Soc. Am., 153(5), pp. 2769, 2023.
  [10] D. Wang, Y. Hu, Y. Fang, Y. Mao, and Q. H. Liu,   "Fast VIE-DDM for 3-D Electromagnetic Scattering of Complicated   Anomalies in Layered Media Using Adaptive Cross Approximation," IEEE   Trans. Geosci. Remote Sens., 61, pp. 1-9, 2023.
  [11] Y. Zhong, H. Wang, W.-F. Huang, Y. Mao, M. Yuan, L.   Cui, and Q. H. Liu, "Efficient Domain Decomposed Simulations of   Induction Well-Logging Tools in a Deviated Borehole," IEEE Trans.   Geosci. Remote Sens., 61, pp. 1-10, 2023.
  [12] Y. Mao, Q. Zhan, D. Wang, R. Zhang, and Q. H. Liu,   “Modeling Thin 3-D Material Surfaces Using a Spectral-Element Spectral-Integral   Method with the Surface Current Boundary Condition,” IEEE Trans. Antennas   Propag., 70(3), pp. 2375-2380, 2022.
  [13] R. Zhang, Q. Sun, Y. Mao, L. Cui, Y. Jia, W.-F. Huang,   M. Ahmadian, and Q. H. Liu, “Accelerating Hydraulic Fracture Imaging by Deep   Transfer Learning,” IEEE Trans. Antennas Propag., 70(7), pp.   6117-6121, 2022.
  [14] D. Wang, J. Dai, Y. Fang, Y. Hu, R. Zhang, Y. Mao, and   Q. H. Liu, “NMM Simulation of Electromagnetic Waves in Cylindrical Geometries   With an Extremely Thin Vertical Layer,” IEEE Trans. Geosci. Remote Sens.,   60, pp. 1-10, 2022.
  [15] Y. Mao, Q. Zhan, R. Zhang, D. Wang, W.-F. Huang, and Q.   H. Liu, “Fast simulation of electromagnetic fields in doubly periodic   structures with a deep fully convolutional network,” IEEE Trans. Antennas   Propag., 69(5), pp. 2921-2928, 2021.
  [16] W. F. Huang, H. Wang, Y. Zhong, R. Zhang, D. Wang, Y. Mao,   Y. Jia, and Q. H. Liu, “Surface Integral Equations for Low-Frequency   Simulation in Well Logging Applications”, IEEE Trans. Antennas Propag.,   69(7), pp. 3957-3965, 2021.
  [17] Y. Mao, J. Niu, Q. Zhan, R. Zhang, W.-F. Huang, and Q.   H. Liu, “Calderón preconditioned spectral-element spectral-integral method   for doubly periodic structures in layered media,” IEEE Trans. Antennas   Propag., 68(7), pp. 5524-5533, 2020.
  [18] Q. Zhan, M. Zhuang, Y. Mao, and Q. H. Liu, “Unified   Riemann Solution for Multi-physics Coupling: Anisotropic   Poroelastic/Elastic/Fluid Interfaces,” Journal of Computational Physics,   402, p.108961, 2020.