Very few designs are reported in the terahertz range for realizing dynamic beam-steering of the antenna radiation pattern at a fixed frequency. In this work, we propose a one-dimensional leaky-wave antenna based on nematic liquid crystals (NLC). More specifically, an NLC cell is sandwiched between two foam layers, the top one patterned with a partially reflecting sheet (PRS), and the bottom one entirely metalized to have a ground plane. Two lateral perfect magnetic conductor walls allow for a dominant TM leaky mode propagating in the structure. The beam is then steered by applying a low-frequency driving voltage through the ground and the PRS. The trade-off among radiation efficiency, angular steering range, and gain that commonly affects any reconfigurable antenna is properly handled through a suitable choice of the design parameters. Full-wave results are finally provided to demonstrate the concept.
Design of a tunable THz 1-D leaky-wave antenna based on nematic liquid crystals / Imperato, F.; Burghignoli, P.; Zografopoulos, D. C.; Beccherelli, R.; Galli, A.; Fuscaldo, W.. - 2022-:(2022), pp. 1-4. (Intervento presentato al convegno 21st Mediterranean Microwave Symposium, MMS 2021 tenutosi a Pizzo Calabro; Italy) [10.1109/MMS55062.2022.9825551].
Design of a tunable THz 1-D leaky-wave antenna based on nematic liquid crystals
Burghignoli P.;Galli A.;Fuscaldo W.
2022
Abstract
Very few designs are reported in the terahertz range for realizing dynamic beam-steering of the antenna radiation pattern at a fixed frequency. In this work, we propose a one-dimensional leaky-wave antenna based on nematic liquid crystals (NLC). More specifically, an NLC cell is sandwiched between two foam layers, the top one patterned with a partially reflecting sheet (PRS), and the bottom one entirely metalized to have a ground plane. Two lateral perfect magnetic conductor walls allow for a dominant TM leaky mode propagating in the structure. The beam is then steered by applying a low-frequency driving voltage through the ground and the PRS. The trade-off among radiation efficiency, angular steering range, and gain that commonly affects any reconfigurable antenna is properly handled through a suitable choice of the design parameters. Full-wave results are finally provided to demonstrate the concept.| File | Dimensione | Formato | |
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