Measurement of complex permittivity and permeability of carbonyl iron powders at microwave frequencies

## Abstract The complex permittivity of aqueous solutions at 20 °C has been measured at concentrations between 0.001 and 5 mol/L and over a frequency range 0.13–20 GHz. The results were combined with literature values to derive empirical equations to predict the dielectric behavior of sodium chlori

## Abstract In this article, we propose a new method to measure the complex relative permittivity (ε~r~ = ε − __j__ε) and permeability (μ~r~ = μ − __j__μ) of liquid‐ or powder‐type materials using a two‐port probe which is constructed from coaxial transmission lines. The two‐port probe is a simple

## Abstract For in situ measurement of the complex permittivity of planar materials, a free‐space system based on reflection or transmission ellipsometry has been developed and extended to microwave frequencies. Different angles of incidence were studied in the range [35–50°]. Original numerical me

## Abstract This paper studied the permittivity of carbon black/epoxy composites at microwave frequencies. The measurements were performed for permittivity at a frequency band of 0.5–18 GHz and for DC conductivity to find the percolation threshold of composite samples of 0.0–1.5 wt % of carbon blac

## Abstract A new measurement technique is presented to determine the complex permittivity of a dielectric material. The dielectric sample is loaded in a short‐circuited rectangular waveguide. The reflection coefficient of the waveguide is measured by Network analyzer and calculated as a function o