A variable polarization reflectarray antenna is investigated in this communication. It consists of the dual‐layer three parallel dipole loops (TPDLs) to independently control the reflected spatial compensative phase and the phase difference of two orthogonal LP components. In this case, the proposed variable polarization reflectarray can transform a linear polarization (LP) mode into an arbitrary polarization mode by simply rotating the feeder and adjusting the wave‐path difference between the dual‐layer TPDL. A detailed operating mechanism of the variable polarization is introduced in this work. As an example, a 13 × 13‐element offset reflectarray is designed, fabricated, and measured. Four different polarization states of right‐hand circularly polarized (RHCP), 45°LP, left‐hand CP (LHCP), and 135°LP are measured and validated with a specific incident LP wave. The measured gains of 22 dB and 1.5‐dB gain bandwidths of 11% are achieved for all the states. This new reflectarray antenna is especially useful for low‐cost variable polarization applications.
In the optical fiber communication system of high-speed and large capacity, the dispersion is one of the main technical indicators. The dispersion causes the light pulse broadening, so it leads to the distortion of signal transmission and BER (bit error rate). The main research is the single-mode optical fiber dispersion compensation. The design and performance of system structure on the dispersion compensation fiber communication system is accomplished by using of the optic system optical fiber communication system simulation. Through the analysis of system structure and the research of the performance of the key components of the system, the output signal waveform is simulated and the influence of the output signal waveform by the system structure and key components performance of the receiving end is compared. The design can reduce the system dispersion.
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