Mingxu Wang | Wireless Communication | Young Scientist Award

Published on by Electrical Engineering

Dr. Mingxu Wang | Wireless Communication | Young Scientist Award

Research Associate | Fudan University | China

Mingxu Wang is a Research Associate at Fudan University specializing in photonic terahertz and free-space optical communications within advanced radio access networks. He holds advanced academic training in electronic and optical engineering with a strong focus on high-capacity fiber–wireless integrated systems, developed through rigorous graduate-level education and collaborative research at leading international institutions. His scholarly output has achieved 687 citations with an h-index of 15 and an i10-index of 22, reflecting sustained impact in the field. He holds multiple patents related to advanced modulation and fiber–wireless integration techniques and actively contributes to the research community through professional memberships with IEEE, Optica, and SPIE. His excellence has been recognized through highly competitive international scholarships and distinctions, underscoring his leadership, innovation, and growing influence in electrical and photonic communications research.

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Featured Publications

Low complexity neural network equalization based on multi-symbol output technique for 200+ Gbps IM/DD short reach optical system
B. Sang, W. Zhou, Y. Tan, M. Kong, C. Wang, M. Wang, L. Zhao, J. Zhang, J. Yu – Journal of Lightwave Technology · Citations: 78
Integrated high-resolution radar and long-distance communication based-on photonic in terahertz band
Y. Wang, W. Li, J. Ding, J. Zhang, M. Zhu, F. Zhao, M. Wang, J. Yu – Journal of Lightwave Technology · Citations: 64
Joint communication and radar sensing functions system based on photonics at the W-band
Y. Wang, J. Liu, J. Ding, M. Wang, F. Zhao, J. Yu – Optics Express · Citations: 56
W-band simultaneous vector signal generation and radar detection based on photonic frequency quadrupling
Y. Wang, J. Ding, M. Wang, Z. Dong, F. Zhao, J. Yu – Optics Letters · Citations: 46
Photonics-assisted joint high-speed communication and high-resolution radar detection system
Y. Wang, Z. Dong, J. Ding, W. Li, M. Wang, F. Zhao, J. Yu – Optics Letters · Citations: 45

Dr. Yong Bai | Photonic & Optoelectronic Devices | Innovative Research Award

Published on by Electrical Engineering

Dr. Yong Bai | Photonic & Optoelectronic Devices | Innovative Research Award

Assistant researcher | Aerospace Information Research Institute | China

Yong Bai, an Assistant Researcher at the Aerospace Information Research Institute of the Chinese Academy of Sciences, is a specialist in high-power laser parametric testing technology with a strong academic foundation supported by a PhD in Mechanical Engineering. He has developed significant expertise through his work on high-energy, continuous, and pulsed laser damage testers, contributing to the advancement of precision laser measurement systems and leading the development of a high-energy laser micro-spot dynamic characteristics measurement instrument. His professional experience includes multiple research projects, industry-related consultancy activities, and the creation of several patented or patent-pending technologies, reflecting both technical capability and a commitment to innovation. His research focuses on high-power laser diagnostic methods, emphasizing accuracy, anti-damage probe design, and solutions to nonlinear distortion challenges in complex laser environments. He has authored numerous publications in reputable indexed journals and serves as an editorial reviewer, demonstrating active engagement with the scientific community. His notable contribution includes proposing a highly anti-damage probe based on a micro-porous cavity structure combined with high-precision scattered-light sampling technology, significantly improving the reliability of high-energy laser testing. Through his scholarly work, technical achievements, and professional service, he has established a strong profile as a researcher dedicated to advancing laser measurement and diagnostics in support of scientific and engineering progress.

Profiles: Scopus | ORCID

Featured Publications

Yong Bai*, Innovative rotating hollow needle design for accurate measurement of high-power laser microspots. Optics and Laser Technology, Accepted.

Yong Bai*, Innovative rotating hollow needle design for accurate measurement of high-power laser microspots. Optics and Laser Technology, 2025, 1(1), Article ID pending.

Yong Bai*, Innovative rotating hollow needle design for accurate measurement of high-power laser microspots. Optics and Laser Technology, In Press.