Polarization Invariants and Retrieval of Surface Parameters Using Polarization Measurements in Remote Sensing Applications

TL;DR

This paper introduces polarization invariants and methods to retrieve surface parameters like dielectric permittivity and temperature from polarization measurements, enhancing remote sensing capabilities across the electromagnetic spectrum.

Contribution

It presents new polarization-based techniques for surface parameter retrieval, leveraging polarization invariants at specific incident angles, applicable in various remote sensing contexts.

Findings

Methods successfully retrieve dielectric permittivity and temperature.

Experimental results validate applicability across electromagnetic spectrum.

Techniques improve surface characterization in remote sensing applications.

Abstract

Using polarization measurements in remote sensing and optical studies allows retrieving more information. We consider relationship between the reflection coefficients of plane and rough surfaces for linearly polarized waves. Certain polarization properties of reflected waves and polarization invariants, in particular at incident angle of forty five degrees, allow finding amplitude and phase characteristics of reflected waves. Based on this study, we introduce methods for finding dielectric permittivity, temperature and geometrical characteristics of observed surfaces. Experimental results prove that these methods can be used for different practical purposes in technological and remote sensing applications, in a broad range of electromagnetic spectrum.