Name：Zhi Gang Zhang

Degrees: Doctor

Title：Dr.

Department：Department of Microelectronics

Research interests：SIW technology and its application, microwave and millimeter-wave filters and couplers, electromagnetic theory, Antenna theory and design, Terahertz technology.

Research team：R & D of RF integrated circuit

E-mail：zhangzg@cuit.edu.cn

【Biography】

Zhi Gang Zhang was born in Shanxi Province, China. He received the BS degree in electronic information engineering and MS degree in wireless physics from Sichuan University and received the PhD degree in electromagnetic field and microwave technology from The University of Electronic Science and Technology of China (UESTC), Chengdu, Sichuan, China. His current research interests include SIW technology and its application, microwave and millimeter-wave filters and couplers, electromagnetic theory, Antenna theory and design, Terahertz technology. In recent years, he has published 12 papers as the first author in foreign high-level journals and important academic conferences, including eight of them were included in SCI and four in EI.

【Courses &Teaching】

Undergraduate course：Physics of Semiconductor Devices; Innovative invention and intellectual property practice

【Publications & Presentations】

[1]. Z. G. Zhang, Y. J. Cheng, Y. Fan, Y. H. Zhang. Compact substrate integrated waveguide rat-race filtering couplers with arbitrary angular interval between ports. International Journal of RF and Microwave Computer-Aided Engineering, 2020, 30(5):1-15(SCI: LA2FB)

[2]. Z. G. Zhang, Y. Fan, Y. H. Zhang. Multilayer half-mode substrate integrated waveguide wideband coupler with high selectivity. The Applied Computational Electromagnetic Society (ACES) Journal, 2019, 34(9): 1418-1425 (SCI: JC1GO)

[3]. Z. G. Zhang, Y. Fan, Y. H. Zhang. Compact 3-D multilayer substrate integrated circular and elliptic cavities dual-mode filter with high selectivity. The Applied Computational Electromagnetic Society (ACES) Journal, 2013, 28(4): 333-340 (SCI: AB2ZR)

[4]. Z. G. Zhang, Y. Fan, Y. H. Zhang. Compact substrate integrated waveguide band-pass rat-race couplers based on mixed shape cavity with flexible port topology. The Applied Computational Electromagnetic Society (ACES) Journal, 2020, 35(4): 466-477 (SCI: LO3IV)

[5]. Z. G. Zhang, Y. Fan. Compact multilayer dual-mode substrate integrated waveguide filtering crossover based on orthogonal modes. The Applied Computational Electromagnetic Society (ACES) Journal, 2020, 35(5): 519-526 (SCI: MF9SA)

[6] Z. G. Zhang, Y. Fan, Y. J. Cheng, Y. H. Zhang. Compact multilayer substrate integrated waveguide dual-band filtering rat-race coupler based on fan-shaped cavities. The Applied Computational Electromagnetic Society (ACES) Journal, 2020, 35(3): 344-353 (SCI: LK8GO)

[7] Z. G. Zhang, Y. Fan, Y. J. Cheng, Y. H. Zhang. A compact multilayer dual-mode substrate integrated circular cavity (SICC) filter for X-band application. Progress In Electromagnetics Research-PIER, 2012, 122(1): 453-465 (SCI: 870CF)

[8] Z. G. Zhang, Y. Fan, Y. J. Cheng, Y. H. Zhang. A novel multilayer dual-mode substrate integrated waveguide complementary filter with circular and elliptic cavities (SICC and SIEC). Progress In Electromagnetics Research-PIER, 2012,127 (6):173-188 (SCI: 959QQ)

[9] Z. G. Zhang, Y. Fan, Y. H. Zhang. A novel multilayer TM dual-mode substrate integrated cavity filter. IEEE MTT-S International Microwave Workshop Series on Advanced Materials and Processes for RF and THz Applications, Chengdu, 2016: 1-4(EI: 20164603010991)

[10] Z. G. Zhang, Y. Fan, Y. J. Cheng, Y. H. Zhang. A novel multilayer E-plane half-mode substrate integrated waveguide (HMSIW) 3-dB coupler with improved out-of-band rejection. Progress in Electromagnetic Research Symposium, Shanghai, 2016:1-4 (EI: 20165203169746)

[11] Z. G. Zhang, Y. Fan, Y. H. Zhang. Miniaturized and high selectivity LTCC filters with harmonic-suppression for S-band application. Progress in Electromagnetic Research Symposium (PIERS), Shanghai, 2016:1-4 (EI: 20165203169921)

[12] Z. G. Zhang, Y. Fan, Y. J. Cheng, Y. H. Zhang. A novel E-plane half-mode substrate integrated waveguide (HMSIW) coupler. 2011 China-Japan Joint Microwave Conference Proceedings, CJMW 2011, Hangzhou, 2011:1-4 (EI: 20112414064612)

【Projects】

1. Key project of National Natural Science Foundation of China, theory and key technology of passive millimeter wave real-time imaging, 2014/09-2017/06, main research

2. National high technology research and development program (863 Program), millimeter wave and terahertz wireless communication technology, main research

3. Key scientific instrument project of the Ministry of science and technology, multi-band millimeter wave cloud water detection, November 2015 to June 2018, Main research

4. LTCC high performance miniaturized filter design, horizontal cooperation project, presided over