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antennas in wireless communications. The role will focus on designing, modeling, and evaluating pinching‐antenna–enabled systems to enhance signal efficiency, channel capacity, and network performance
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antennas in wireless communications. The role will focus on designing, modeling, and evaluating pinching‐antenna–enabled systems to enhance signal efficiency, channel capacity, and network performance
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of an experimental setup for the characterization of plasma discharges intended for plasma antennas operating in the C/X band. Measurement campaign on different plasma discharge designs to identify pressure levels
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for: Antenna design with beamforming capability. Integration of integrated circuits. Programming and characterization of prototypes. Measurement in anechoic chamber and real scenarios. Data processing. Where
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of Research Associate. The candidate shall support pioneering and innovative research in the application of flexible antennas for the beyond 5G wireless communication systems at School of Electrical and
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advanced CMOS and III-V technologies, including the related radiating elements and antenna-arrays. Your role will cover a dynamic mix of tasks: Development-on-demands Participation to funded projects
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with the co-director, actively contribute to the coordination of the patient engagement antennae of the Quebec Strategy for Patient Oriented Research (SPOR) platform at McGill University, providing
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room temperature and cryogenically cooled detectors, various passive and active components, and antennas at submillimeter-wave and terahertz frequencies. We are looking for highly motivated candidates
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of pinching antennas in next-generation wireless communications at School of Electrical and Electronic Engineering of NTU. The role involves designing, modeling, and analyzing innovative antenna-enabled
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. The NIST channel sounding measurement team specializes in the development and use of instrumentation in the 10s of GHz based on phased array antennas that is optimized to capture dynamically evolving