Broadband Effective Permittivity Simulation and Measurement Techniques for 3-D-Printed Dielectric Crystals

Abstract: Frequency-dependent dielectric properties of 3-D-printed structured dielectrics (dielectric crystals) with engineered effective permittivity for micro-and mmWave applications are studied. Different modeling and measurement techniques for broadband dielectric properties of such 3-D-printed crystals are reviewed, their tradeoffs discussed, and individual results compared. Numerically obtained results from the plane wave expansion method (PWEM) and Floquet port scattering are compared with traveling-wave measurem… Show more

“…[32]. This technique remains accurate as long as the unit cells remain electrically small, namely a side lower than λ/8 [33,34].…”

3D‐printed heterogeneous isotropic–anisotropic dielectric resonator for singly fed dual‐band circularly polarised antennas

“…[32]. This technique remains accurate as long as the unit cells remain electrically small, namely a side lower than λ/8 [33,34].…”

3D‐printed heterogeneous isotropic–anisotropic dielectric resonator for singly fed dual‐band circularly polarised antennas

Modeling and measurement of dielectric anisotropy in materials manufactured via fused filament fabrication processes

A high Q factor sensor to measure the complex permittivity and effective permittivity based on a band stop frequency-selective surface