TY - GEN
T1 - Novel Partially-Shielded Coplanar Waveguide with Metasurfaces for Liquid Crystals Tunable Delay Lines beyond 67 GHz
AU - Li, Jinfeng
N1 - Publisher Copyright:
© 2022 IEEE.
PY - 2022
Y1 - 2022
N2 - Artificial magnetic conductor (AMC) in the form of a partially corrugated internal wall of a metal enclosure is applied to optimise our pioneered liquid crystals filled partially shielded coplanar waveguide phase shifters for wavefront phase control beyond 67 GHz. The AMC introduces high impedance for the cavity-width-dependent higher-order modes and surface-wave radiation. This relaxes the within-a-half-guided-wavelength assumption on the cavity's width, thus allowing manufacturability by existing wire erosion whilst pushing the device's upper-frequency limit towards the W band (i.e., miniaturisation) without functional degradation. The first models developed in this work serve to navigate millimetre-wave experimentalists in formulating the optimal conditions for the liquid crystals based tunable device manufacturing, assembling, and experiments. For instance, the proposed AMC-assisted enclosure leads to excellent modularity (i.e., a fixed size of enclosure part compatible with devices operating at different frequency ranges), a decent improvement of yield (ease of assembling), and a significant reduction of misalignment-induced insertion loss by -3.2 dB at 60 GHz.
AB - Artificial magnetic conductor (AMC) in the form of a partially corrugated internal wall of a metal enclosure is applied to optimise our pioneered liquid crystals filled partially shielded coplanar waveguide phase shifters for wavefront phase control beyond 67 GHz. The AMC introduces high impedance for the cavity-width-dependent higher-order modes and surface-wave radiation. This relaxes the within-a-half-guided-wavelength assumption on the cavity's width, thus allowing manufacturability by existing wire erosion whilst pushing the device's upper-frequency limit towards the W band (i.e., miniaturisation) without functional degradation. The first models developed in this work serve to navigate millimetre-wave experimentalists in formulating the optimal conditions for the liquid crystals based tunable device manufacturing, assembling, and experiments. For instance, the proposed AMC-assisted enclosure leads to excellent modularity (i.e., a fixed size of enclosure part compatible with devices operating at different frequency ranges), a decent improvement of yield (ease of assembling), and a significant reduction of misalignment-induced insertion loss by -3.2 dB at 60 GHz.
KW - artificial magnetic conductor
KW - coplanar transmission line
KW - liquid crystal
KW - metamaterial
KW - metasurface
KW - millimetre-wave
KW - surface wave radiation
KW - tunable delay line
UR - http://www.scopus.com/inward/record.url?scp=85148288198&partnerID=8YFLogxK
U2 - 10.1109/CAMA56352.2022.10002683
DO - 10.1109/CAMA56352.2022.10002683
M3 - Conference contribution
AN - SCOPUS:85148288198
T3 - IEEE Conference on Antenna Measurements and Applications, CAMA
BT - 2022 IEEE Conference on Antenna Measurements and Applications, CAMA 2022
PB - Institute of Electrical and Electronics Engineers
T2 - 2022 IEEE Conference on Antenna Measurements and Applications, CAMA 2022
Y2 - 14 December 2022 through 17 December 2022
ER -