Assist. Prof. Dr. weijie wang | Material Measurement | Best Researcher Award

Assistant Professor | Southwest Jiaotong University | China

Dr. Weijie Wang received his Ph.D. degree from the University of Electronic Science and Technology of China in 2024. He is currently serving as an Assistant Professor at the School of Physical Science and Technology, Southwest Jiaotong University. His research research interests include dielectric properties measurement and modeling, high-power vacuum devices, and millimeter-wave technologies.Dr. Wang has participated in multiple national-level projects and resolved several key technological challenges, including precise materials dielectric properties measurement in millimeter-wave frequency bands, the development of high-power microwave sources, and and innovations in pulse compression techniques. He published nearly 30 papers for several academic journals.His publications in journals such as IEEE Transactions on Microwave Theory and Techniques, IEEE Electron Device Letters, and Measurement Science and Technologyreflect wide recognition of his work by the scientific community. In addition to his research activities, Dr. Wang serves as a reviewer and editorial assistant for several academic journals, supporting the dissemination of knowledge in his field. His current work focuses on extending measurement methodologies to accurately assess the dielectric properties of biological tissues across microwave to terahertz frequency ranges. This research aims to advance the use of electromagnetic technology in biomedical applications and other cutting-edge domains, contributing to both theoretical and practical advancements in the field.

Profile: Orcid

Featured Publications

W. J. Wang, G. Liu, Y. Wang, W. Jiang, Q. Zheng, J. X. Wang, and Y. Luo. A more accuratemeasurement method of the dielectric material properties with high tolerance using anovermoded waveguide. IEEE Transactions on Microwave Theory and Techniques, 2022, 70(4):2363-2369

W. J. Wang, G. Liu, W. Jiang, Y. Pu, J. X. Wang, and Y. Luo. Design and measurement of abroadband compact TE11 mode input coupler for an X-band gyrotron traveling wave tube.IEEE Transactions on Microwave Theory and Techniques, 2020, 68(11): 4554–4559

W. J. Wang, Y. J. Cao, G. Liu, Y. L. Yao, W. Jiang, J. X. Wang and Y. Luo. A water-based lossywaveguide with high attenuation used in high power gyro-TWT. IEEE Electron Device Letters,2024, 45(7): 1325-1328

W. J. Wang, G. Liu, W. Jiang, Z. W. Wu, Y. L. Yao, Y. L. Pu, J. X. Wang, and Y. Luo. Microwavemeasurement of a compact circular TE11 mode coupler loaded with ridges[J]. IEEE Transactionson Electron Devices, 2021, 68(1): 359–363

W. J. Wang, Y. J. Cao, Y., Wang, T. et al. Accuracy Permittivity Measurement at W-Band Using a High Overmoded Factor Based on the Multi-channel Waveguide. J. Infrared. Milli. Terahz. Waves, 2025, 46(63)

W. J. Wang, W. Jiang, Y. L. Yao, J. X. Wang and G. Liu. An improved waveguide method foraccurate complex permittivity measurement of medium/high-loss material. MeasurementScience and Technology, 2024, 35:066005

W. J. Wang, G. Liu, Y. J. Cao, B. L. Chen, Y. L. Yao, Y. Wang, X. Q. Gong, W. Jiang, J. X. Wang,and Y. Luo. Theory and measurement of the single and hybrid-mode excitation and evolution ina lossy-dielectric-loaded waveguide. Journal of Electromagnetic Waves and Applications,2023, 37(4): 510-523

W. J. Wang, W. Jiang, Y. L. Yao, J. X. Wang and G. Liu. An air gap correction method forpermittivity extraction of high-loss materials. Journal of Electromagnetic Waves andApplications, 2024, 38(13): 1435-1449