Attenuation and depolarization of millimeter waves due to incoherent scattering in tropical rainfall

Abstract

The radiative transfer equation has been applied to investigate the effects of multiple scattering on communication at the millimeter wavelength in tropical rain. Horizontal linearly polarized incident waves are assumed. The scattering characteristics are calculated using the Mie theory at frequencies of 16, 34.8, 82, 140 and 245.5 GHz and at rainfall rates of 12.5, 50 and 150 mm/ h . Some results of the directional patterns of the incoherent intensities at various points in the rain medium are presented. The frequency dependence of the propagation distance, attenuation coefficient and the variation of incoherent specific intensities in tropical rainfall are investigated. The incoherent power at the receiver relative to the coherent power, which is important in assessing the quality of signal in the receiver, is also investigated. It is observed that the maximum incoherent copolarized received power is about −28.5 dB in tropical rainfall at 150 mm/ h rainfall rate. Also the difference between the copolarized incoherent power in tropical and temperate rainfall is about −3 dB at frequencies higher than 100 GHz , and about −4 dB for the cross-polarized incoherent power components. It may therefore be safely said that multiple scattering may not result in serious degradation of the coherent wave component even in the most intense tropical precipitation. It also appears that it is independent of regional rainfall climatology.