Sentence examples for polarization in the frequency from inspiring English sources
Results of simulation show that the presented dielectric mirror is highly reflecting for all incidence angles and TE as well as TM polarization in the frequency band from 0.451 to 0.821 THz (i.e. wavelength ranges from 365.5 to 665.5 μm), when the incidence angle is less than 45°.
Half-wave dipole antennas with vertical polarization are configured in the frequency of 5.9 GHz and 10 MHz of channel bandwidth, compliantly with 802.11p specifications.
The contribution of the electrode polarization in low frequency region and at high temperatures has been taken into account during analysis.
The simulation result shows that a linearly polarized wave can be converted into its orthogonal polarization after reflection, the polarization conversion ratio is above 90% in the frequency range of 5.1 12.1 GHz and the relative bandwidth is up to 78.6%, which agree well with the experimental results.
Moreover, the polarization dependency of the structure is examined and it is found that the design operates well as a perfect absorber with polarization independency in the studied frequency range.
The space charge polarization decreases with an increase in the frequency, which results in the values of ε′ and ε″ decrease with an increase in frequency [27].
Recently, a simple analytical model was derived from the standard electrokinetic theory to deal with electrode polarization in low frequency dielectric measurements [Hollingsworth and Saville, J. Colloid Interface Sci. 257 (2003 65 76]].
The numerical procedure proposed here allows us to find polarization profiles which take on two values only, i.e. either positive or negative polarization, that isolate particular vibration modes in the frequency domain.
Hence, orthogonalization in the frequency and polarization domain is used to limit interbeam interferences.
The left part of the curve corresponds to volume polarization effects in the high-frequency region.
In Figure 6h, the polarization angle at MGD barely varies, and remains near −60° (dark blue) in the frequency range of 0.3 to 0.6 Hz.
