Measurement of the electromagnetic properties of chiral composite materials in the 8–40 GHz range

Abstract: Materials described by the constitutive equations D = εE + βε ∇ × E and B = μH + βμ ∇ × H lack inversion symmetry due to chirality or handedness in their microstructure. In this paper, we describe the first direct measurements of the material properties ε, μ, and β for microwave chiral composite materials prepared in our laboratory in the frequency range of 8–40 GHz. We have used both reflection and transmission measurements for normally incident, linearly polarized plane waves in a specially designed free‐spa… Show more

“…The CMCs are expected to have many unique characteristics, such as good chiral conductivity, high surface area (Chen et al 1999), very high super-elastic property (Chen et al 2002), very high interaction ability with electromagnetic waves and many potential applications such as tunable microdevices/sensors, electromagnetic absorbers, energy changing materials, hydrogen absorbers, chiral catalysts, activators of organisms, etc. (Fujii et al 2002, Furuta et al 2004, Kato et al 2003, Varadan et al 1994, Guerin et al 1992.…”

Effects of additional amount of carbon micro-coils on the dielectric properties of its composite sheet

“…The CMCs are expected to have many unique characteristics, such as good chiral conductivity, high surface area (Chen et al 1999), very high super-elastic property (Chen et al 2002), very high interaction ability with electromagnetic waves and many potential applications such as tunable microdevices/sensors, electromagnetic absorbers, energy changing materials, hydrogen absorbers, chiral catalysts, activators of organisms, etc. (Fujii et al 2002, Furuta et al 2004, Kato et al 2003, Varadan et al 1994, Guerin et al 1992.…”

Effects of additional amount of carbon micro-coils on the dielectric properties of its composite sheet

“…The CMCs are expected to have many unique characteristics, such as good chiral conductivity, high surface area (Chen et al 1999), very high superelastic property (Chen et al 2002), very high interaction ability with electromagnetic waves and many potential applications such as tunable micro-devices/sensors, electromagnetic absorbers, energy changing materials, hydrogen absorbers, chiral catalysts, activators of organisms, etc. (Fujii et al 2002, Furuta et al 2004, Kato et al 2003, Varadan et al 1994, Guerin et al 1992. These excellent characteristics are mainly affected by the special chiral/coiling morphology and the micro-to nanometer ordered dimensions.…”

Effects of Additional Amount of Carbon Micro-Coils on the Electrical Properties of Carbon Micro-Coils Composite Sheet as a Tactile Sensor

“…Investigations show that Chiral medium possesses the property of reciprocity, while Tellegen medium is nonreciprocal. Many efforts have been made in the fabrication of these BI materials [4][5][6] because of their great potential in the millimeterwave and microwave applications such as antenna radomes [7], chiro-microstrip antennas [8], modes convertors [9], and polarization rotators [10]. Such material brings about new challenges to the EM theory since its constitutive relationships enforce an additional coupling between electric and magnetic fields.…”

Time-Domain Integral Equation Solver for Radiation From Dipole Antenna Loaded With General Bi-Isotropic Objects