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doctoral- and master students or similar. Strong experience in III-V device and circuit RF characterization. Documented skills in circuit design. Experience in device characterization at millimeter wave
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from 1 GHz to 500 GHz. Our facilities include a uniquely well-equipped laboratory for advanced millimeter wave measurements and a state-of-the art cleanroom facility. About the research project A major
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communications and networks Beamforming and MIMO algorithms Millimeter wave communications Terahertz band communications Visible light communications Channel modeling and/or interference modeling Beam tracking and
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engineering. Areas of interest include, but are not limited to: Low-power microelectronics Wide-bandgap semiconductors RF, millimeter-wave, analog, mixed-signal, and digital integrated circuits Optoelectronics
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engineering. Areas of interest include, but are not limited to: Low-power microelectronics Wide-bandgap semiconductors RF, millimeter-wave, analog, mixed-signal, and digital integrated circuits Optoelectronics
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Bioengineering, Biomedical Sensors Microwave/Millimeter-wave and THz Technologies, Antennas and Applications, Electromagnetic Theory and Computational Techniques, IoT Enabling Technologies, Intelligent Sensing and
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postgraduate levels, conduct frontline research, and develop new research directions and courses, where applicable, in the areas of Electronic and Electrical Engineering with special focuses on Millimeter