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Rain induced depolarization from 1 GHz to 300 GHz in a tropical environment

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Abstract

The rain induced depolarization in a tropical environment has been studied using a tropical raindrop size distribution developed by Ajayi and Olsen (A-O). The differential attenuation, differential phase shift and cross polarization discrimination, XPD, were computed over a frequency range of 1GHz to 300GHz for spheroidal drops and up to 33GHz for Pruppacher-Pitter drops. The variations of XPD with frequency, rainfall rate and copolar attenuation, CPA, were investigated. A mathematical relationship was established between the XPD and the CPA, canting angle and frequency of propagation from 5GHz to 300 GHz for spheroidal drops and up to 33 GHz for Pruppacher-Pitter drops. The results obtained using the A-O drop size distribution have been compared with those assuming the Laws and Parsons (L-P) distribution. The Pruppacher-Pitter drop shape has been found to give rise to higher XPD, especially at low CPA and high frequencies.

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Author notes

  1. I. E. Owolabi

    Present address: Department of Electrical Engineering, University of Ilorin, Nigeria

Authors and Affiliations

  1. Department of Electronic and Electrical Engineering, University of Ife, Nigeria

    G. Olalere Ajayi, I. E. Owolabi & I. A. Adimula

Authors
  1. G. Olalere Ajayi
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  2. I. E. Owolabi
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  3. I. A. Adimula
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Olalere Ajayi, G., Owolabi, I.E. & Adimula, I.A. Rain induced depolarization from 1 GHz to 300 GHz in a tropical environment. Int J Infrared Milli Waves 8, 177–197 (1987). https://doi.org/10.1007/BF01012552

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  • DOI: https://doi.org/10.1007/BF01012552

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