PHD at Shanghai Jiao Tong University, China
Hongbiao Cui is a researcher at Shanghai Jiao Tong University with a Ph.D. in Engineering Thermophysics. He holds an M.S. in Physics/Optics from Beijing Normal University and a B.S. in Applied Physics from Tianjin Normal University. His research focuses on metamaterials, electromagnetic wave absorption and polarization conversion, rubber material modification, random lasers, and sensing and detection. He has made significant contributions in designing and fabricating composite electromagnetic metamaterials for stealth applications and developing random lasers for low-concentration iodine ion sensing. His work has advanced the understanding and application of materials in various high-tech fields.
Professional Profiles
Education
ph.D. in Engineering Thermophysics – Shanghai Jiao Tong University M.S. in Physics/Optics – Beijing Normal University B.S. in Applied Physics – Tianjin Normal University
Research Experience
Undergraduate: Influence of Deposition Pressure on the Structure and Optical Properties of RF Sputtered Al₂O₃ Films Research Content: Studied the properties of magnetron sputtered aluminum oxide films under different deposition pressures using methods such as XRD, SEM, and spectrophotometry. Master’s Degree: Pump-Controlled Random Lasers and Applications Research Content: Investigated the output characteristics of microfluidic random lasers under different pumping field conditions. Achieved flexible control of the microfluidic random lasers by changing the angle between the incident direction of a single-beam pump light and the sample axis. Doctoral Degree: Design and Performance Study of Composite Electromagnetic Metamaterials for Stealth Applications
Research Interests
Metamaterials, Electromagnetic Wave Absorption, Electromagnetic Wave, Polarization Conversion, Rubber Material Modification, Random Lasers Sensing and Detection.
Publications
- Broadband and Efficiency Reflective Polarization Converter in X and Ku Bands Based on an Asymmetric Rod-Shaped Ring with a Hole-Shaped Metasurface, Publication date: 2022.
- Broadband absorptive metamaterials enhanced by magnetic rubber to broaden bandwidth, Publication date: 2024.
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