This paper presents a method for effectively characterizing the dielectric permittivity of nematic liquid crystals across a broad frequency range. These materials show significant potential for reconfigurable devices operating in microwave and millimeter-wave frequencies. To achieve this goal, an additive manufacturing technique is used to create a microstrip line that can be filled with liquid that acts as its substrate. The liquid crystal is then biased to modulate its permittivity.

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[1] Pablo Mateos-Ruiz, "Liquid Crystal Microstrip Prototipe S-Parameter Measurements", IEEE Dataport, 2023. [Online]. Available: http://dx.doi.org/10.21227/7axm-6b05. Accessed: Dec. 11, 2024.
@data{7axm-6b05-23,
doi = {10.21227/7axm-6b05},
url = {http://dx.doi.org/10.21227/7axm-6b05},
author = {Pablo Mateos-Ruiz },
publisher = {IEEE Dataport},
title = {Liquid Crystal Microstrip Prototipe S-Parameter Measurements},
year = {2023} }
TY - DATA
T1 - Liquid Crystal Microstrip Prototipe S-Parameter Measurements
AU - Pablo Mateos-Ruiz
PY - 2023
PB - IEEE Dataport
UR - 10.21227/7axm-6b05
ER -
Pablo Mateos-Ruiz. (2023). Liquid Crystal Microstrip Prototipe S-Parameter Measurements. IEEE Dataport. http://dx.doi.org/10.21227/7axm-6b05
Pablo Mateos-Ruiz, 2023. Liquid Crystal Microstrip Prototipe S-Parameter Measurements. Available at: http://dx.doi.org/10.21227/7axm-6b05.
Pablo Mateos-Ruiz. (2023). "Liquid Crystal Microstrip Prototipe S-Parameter Measurements." Web.
1. Pablo Mateos-Ruiz. Liquid Crystal Microstrip Prototipe S-Parameter Measurements [Internet]. IEEE Dataport; 2023. Available from : http://dx.doi.org/10.21227/7axm-6b05
Pablo Mateos-Ruiz. "Liquid Crystal Microstrip Prototipe S-Parameter Measurements." doi: 10.21227/7axm-6b05