Abstract
Effects of nonuniform weakly ionized dusty plasma on the polarization properties of obliquely incident electromagnetic (EM) waves were theoretically investigated in this paper. The dielectric coefficient of magnetized dusty plasma is obtained based on the Bhatnagar–Gross–Krook collision model. Then, the effects of external magnetic field, dust radii, and density on the polarization mismatch loss of obliquely incident EM waves in the L-band were analyzed using the equivalent impedance method. Results indicate that the larger the external magnetic field, the greater the polarization mismatch loss. In addition, we also found that dusty particles alleviate the deterioration of the polarization state significantly; regulating and controlling dust radius and density can avoid polarization reversal and reduce the polarization mismatch loss. We further analyzed the variation of the polarization state under different reentry heights. Our analysis reveals interesting features concerning polarization properties of obliquely incident EM waves, which provide an important theoretical basis for information reception in the plasma sheath containing ablative particles.
Highlights
When a hypersonic vehicle flies near space, a complex nonuniform dusty plasma will form on the surface of the vehicle because of high temperature, which will cause radar signal attenuation and lead to communication blackout [1, 2]
The properties of dusty plasma are more complex due to the existence of dust particles. e collisions of dust particles with electrons or ions lead to complex interactions between dusty plasma and EM waves [3]. e problem of EM waves propagate in nonuniform dusty plasma has been concerned by many scholars
Karasev et al [4] investigated the features of dusty plasma in a strongly inhomogeneous magnetic field
Summary
When a hypersonic vehicle flies near space, a complex nonuniform dusty plasma will form on the surface of the vehicle because of high temperature, which will cause radar signal attenuation and lead to communication blackout [1, 2]. In the nonuniform dusty plasma medium, waves with different polarization states experience different attenuations in amplitude and phase. Discussing the polarization properties of EM waves in nonuniform weakly ionized and magnetized dusty plasma is of great importance.
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