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Field
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is part of the Vehicle Array Antennas for 5G (V-ARRAY5G)
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harness unprecedented flexibility in the distributed control of the antennas and radio-frequency (RF) systems. We propose a unique approach for strengthening the resilience of sense constellations and
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broadband multi-physics characterization technique for Debye-type materials, innovative mmWave textile antennas for smart clothing, ultra-robust miniature implantable UHF antennas, first mmWave reverberation
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of the Guo lab is to define fundamental principles governing the functional wiring of the brain. Toward this goal, we are focused on primary cilia, signaling antennae of almost all cells in the brain. Long
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the information on the amplitude and phase of so-called “spin-waves”, magnetic exci-tations, with GHz frequencies, and micron wavelengths. They can be excited by RF antennas, or more recently by surface acoustic
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—such as solar arrays, antennae, and habitat frameworks—while minimizing launch mass and deployment complexity. Key objectives include optimizing structural design for deployment efficiency, resilience under
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This project aims to create conformal active holographic metasurface antennas with beam steering capabilities. By developing novel design methodologies using discrete surface impedances and Voronoi
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conformal antenna systems. While metamaterial concepts enable remarkable properties that are often difficult to achieve via conventional routes, there remain immovable constraints in functionality
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PhD project in ELLIIT , Linköping University. Your work assignments The selected candidate will conduct cutting-edge research on unconventional array antenna systems for imaging MIMO radar in
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), antenna design, and system hardware development. We collaborate closely with clinical experts to develop innovative technologies to address critical healthcare challenges, including stroke and trauma