2022 - Research.com Electronics and Electrical Engineering in China Leader Award
2022 - Research.com Physics in China Leader Award
2015 - IEEE Fellow For contributions to microwave metamaterials and computational electromagnetics
Tie Jun Cui mainly investigates Optics, Metamaterial, Optoelectronics, Electromagnetic radiation and Surface plasmon polariton. Tie Jun Cui works mostly in the field of Optics, limiting it down to concerns involving Planar and, occasionally, Filter. His studies deal with areas such as Directivity, Reflection, Metamaterial antenna and Microwave as well as Metamaterial.
His studies in Optoelectronics integrate themes in fields like Microstrip antenna and Electric field. In his research, Focus and Negative refraction is intimately related to Plane wave, which falls under the overarching field of Electromagnetic radiation. His research in Surface plasmon polariton focuses on subjects like Telecommunications, which are connected to Wavelength.
Tie Jun Cui spends much of his time researching Optics, Metamaterial, Optoelectronics, Microwave and Surface plasmon polariton. His work is connected to Electromagnetic radiation, Polarization, Terahertz radiation, Transformation optics and Anisotropy, as a part of Optics. His Metamaterial research includes themes of Lens, Acoustics, Metamaterial antenna and Permittivity.
The various areas that he examines in his Optoelectronics study include Microstrip, Broadband and Bandwidth. Microwave is frequently linked to Electronic engineering in his study. His Surface plasmon polariton research is multidisciplinary, relying on both Waveguide and Surface wave.
Tie Jun Cui focuses on Optics, Electronic engineering, Wireless, Optoelectronics and Surface plasmon polariton. His study in Polarization, Plasmon, Broadband, Holography and Wavelength are all subfields of Optics. The study of Plasmon is intertwined with the study of Metamaterial in a number of ways.
His research integrates issues of MIMO, Space–time code, Field-programmable gate array and Antenna, Beam steering in his study of Electronic engineering. His Optoelectronics study also includes fields such as
Microwave and related Voltage,
Planar most often made with reference to Microstrip. His study on Surface plasmon polariton also encompasses disciplines like
Surface wave that connect with fields like Circular polarization and Electrical impedance,
Waveguide and related Wideband.
Electronic engineering, Optics, Wireless, Phase and Optoelectronics are his primary areas of study. His studies deal with areas such as Time domain, Transmission, MIMO, Space–time code and Field-programmable gate array as well as Electronic engineering. His research links Frequency band with Optics.
His work carried out in the field of Phase brings together such families of science as Amplitude, Condensed matter physics, Electromagnetic field and Huygens–Fresnel principle. Tie Jun Cui usually deals with Optoelectronics and limits it to topics linked to Microwave and Cloaking, Photodiode and Electronic component. His work in Dual-polarization interferometry addresses issues such as Near and far field, which are connected to fields such as Metamaterial.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Broadband ground-plane cloak.
R. Liu;C. Ji;J. J. Mock;J. Y. Chin.
Science (2009)
Coding metamaterials, digital metamaterials and programmable metamaterials
Tie Jun Cui;Tie Jun Cui;Mei Qing Qi;Xiang Wan;Jie Zhao.
Light-Science & Applications (2014)
Simulation and experiment on SIW slot array antennas
Li Yan;Wei Hong;Guang Hua;Jixin Chen.
IEEE Microwave and Wireless Components Letters (2004)
Polarization-independent wide-angle triple-band metamaterial absorber.
Xiaopeng Shen;Tie Jun Cui;Junming Zhao;Hui Feng Ma.
Optics Express (2011)
Conformal surface plasmons propagating on ultrathin and flexible films
Xiaopeng Shen;Tie Jun Cui;Diego Martin-Cano;Francisco J. Garcia-Vidal;Francisco J. Garcia-Vidal.
Proceedings of the National Academy of Sciences of the United States of America (2013)
Three-dimensional broadband ground-plane cloak made of metamaterials
Hui Feng Ma;Tie Jun Cui.
Nature Communications (2010)
Experimental demonstration of electromagnetic tunneling through an epsilon-near-zero metamaterial at microwave frequencies.
Ruopeng Liu;Qiang Cheng;Thomas Hand;Jack J. Mock.
Physical Review Letters (2008)
Broadband and high-efficiency conversion from guided waves to spoof surface plasmon polaritons
Hui Feng Ma;Xiaopeng Shen;Qiang Cheng;Wei Xiang Jiang.
Laser & Photonics Reviews (2014)
Ultrathin multiband gigahertz metamaterial absorbers
Hui Li;Li Hua Yuan;Bin Zhou;Xiao Peng Shen.
Journal of Applied Physics (2011)
Three-dimensional broadband and broad-angle transformation-optics lens
Hui Feng Ma;Tie Jun Cui.
Nature Communications (2010)
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