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Dielectric DispersionBecause polarization cannot follow an electric field in a high-frequency field, permittivity has a dependence on the frequency. This dependence is called dielectric dispersion. It is very important for the application of dielectric materials and the analysis of polarization systems. When the frequency becomes higher: - it becomes impossible for dipolar polarization to follow the electric field in the microwave region around 1010 Hz;
- in the infrared or far-infrared region around 1013 Hz, ionic polarization loses the response to the electric field;
- electronic polarization loses its response in the ultraviolet region around 1015 Hz.
In the wavelength region below ultraviolet, permittivity approaches the constant ε0 in every substance, where ε0 is the permittivity of the free class. Because permittivity indicates the strength of the relation between an electric field and polarization, if a polarization process loses its response, permittivity decreases. The distortion in the microwave region indicates behavior of the relaxation type and is called "dielectric relaxation." The behavior of this distortion can be expressed by the Debye equations. On the other hand, the distortion related to ionic and electronic polarization shows behavior of the resonance type or oscillator type. Which distortion process exists depends on the structure and composition of the substance.
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