IntroductionIn May 2019, he joined the Department of Information Engineering of the School of Information Science and Technology to support the construction of first-class undergraduate majors in electronic information engineering and communication engineering, and the construction of the master's degree in information and Communication engineering. He is mainly engaged in the research of propagation and scattering of microwave millimeter band electromagnetic waves. Recently, he focuses on the analysis theory and method, rule and optimization mechanism of bright temperature transmission in microwave radiometer calibration system. Host country natural surface, green base, participate in the key research and development plan of the Ministry of Science and Technology, and host a number of horizontal projects entrusted by enterprises and institutions. In recent years, he has published more than ten academic papers in reputational journals in the electromagnetic field such as IEEE TAP, AWPL and GRSL. EducationWork ExperienceSocial PositionSocial ActivitiesResearchBased on theoretical and computational electromagnetic methods and means, he is mainly engaged in the research of microwave millimeter wave propagation and scattering problems. Recently, he focuses on the analysis theory and method, rule and optimization mechanism of bright temperature transmission in microwave radiometer calibration system. The research of component and optical path design and beam performance optimization algorithm is also carried out around the quasi-optical reflector antenna system. TeachingUndergraduate courses: Electromagnetic Fields and Waves Graduate courses: Computational electromagnetic methods and engineering applications PostgraduatesFundingNSFC Project: On the Quantitative Computation Methodology and Optimization Mechanisms for the Near-Field Brightness Temperature Transfer in the Microwave Radiometer Calibration Link Vertical ProjectHorizontal ProjectPublications[1] Xiang Li, Ming Bai, Ming Jin*, Reciprocity-based Modeling of Microwave Brightness Temperature Transfer in Near-field, from Calibration Target to Antenna, IEEE Transactions on Antennas and Propagation, 72(7): 6145-6150, 2024. [2] Qingsong Gao, Yuan Tao, Lei Yang, Ruili Yuan, Ming Jin*, On the Antenna Illumination Effects in Monostatic Reflectivity Determination for Microwave Calibration Targets, IEEE Geoscience and Remote Sensing Letters, 21: 4500705, 2024. [3] Jianjie Zhu, Qian Wang, Ming Jin*,High-Order Wideband Band-Pass Miniaturized Frequency-Selective Surface with Enhanced Equivalent Inductance, Electronics, 13(5), 925, 2024. [4] Ming Jin, Danyang Wang, Yichi Zhang, Yunan Han, Ming Bai, On the Design of High Conversion Efficiency Quasi-Optical Mode Converter for 140GHz High-Power Gyrotron Applications, Journal of Infrared and Millimeter Waves, 42(2):234-240, 2023. [5] Xiang Li, Ming Bai, Ming Jin*, Direct Modeling of Thermal Radiation Reception by Antenna in Close Range, IEEE Transactions on Antennas and Propagation, 71(2): 1757-1764, 2023. [6] Ruili Yuan, Yuan Tao, Qingsong Gao, Yunan Han, Ming Bai, Ming Jin*, Brightness Temperature Analysis in the Miniaturization of Pyramidal Calibration Targets for Sub-millimeter Wave Radiometers, IEEE Geoscience and Remote Sensing Letters, 19:5003505, 2022. [7] Ming Jin, Xiang Li, Dong Xia, Yichi Zhang, Yizhang Zhu, Ming Bai, A Compact Dual-Mirror Design of Quasi-Optical Mode Converter for Gyrotron Application, IEEE Antennas and Wireless Propagation Letters, 21(5), 1032-1036, 2022. [8] Ming Jin, Bohao Fan, Xiang Li, Bin Li, Ming Bai, On the Total Reflectivity Estimation of Microwave Calibration Targets by Backscattering Measurements, IEEE Transactions on Geoscience and Remote Sensing, 60, 5223711, 2022. [9] Ming Jin, Ruili Yuan, Xiang Li, Yuan Tao, Qingsong Gao, Ming Bai, Wideband Microwave Calibration Target Design for Improved Directional Brightness Temperature Radiation, IEEE Geoscience and Remote Sensing Letters, 19: 7001705, 2022. [10] Ming Jin, Bin Li, Ming Bai, On the Reflectivity Measurements of Microwave Blackbody in Bistatic Near-Field Configuration, IEEE Transactions on Antennas and Propagation, 69(11), 8027-8032, 2021. [11] Ming Jin, Bin Li, Bohao Fan, Zhiping Li, Ming Bai, On the Reflectivity Extraction Based on Partial Bistatic Near-Field Scattering from Microwave Blackbody, IEEE Transactions on Antennas and Propagation, 69(3), 1692-1705, 2021. [12] Ming Jin, Dong Xia, Yun Li, Ming Bai, Updated Fast Solution for Quasi-Optical Beam Waveguides With Tilted FFT Beam Propagator, IEEE Antennas and Wireless Propagation Letters, 19(4), 527-531, 2020. AwardsPatentHonor RewardAdmissions Information |