Reflection coefficient frequency

   

    Lorenzo Rubio Arjona

This figure shows the effect of the frequency (e.g., 0.1, 1 and 10 GHz) on the reflection coefficient (Fresnel coefficient) magnitude in terms of the angle of incidence. This representation corresponds to a wave propagating in free space an impinging onto a reflection surface characterized by its electrical properties (relative permittivity and conductivity).
The range of the parameters used in the derivation of the reflection coefficient are the following: Relative permitivity: From 1 to 10
Conductivity: From 0 S/m to 10 S/m

GOAL:
This figure shows the effect of the frequency on the reflection coefficient (Fresnel coefficient) magnitude in terms of the angle of incidence.

INTRODUCTION:
This representation corresponds to a wave propagating in free space an impinging onto a reflection surface characterized by its electrical properties (relative permittivity and conductivity).

INSTRUCTIONS:
Enter the electrical properties of the reflection surface (relative permittivity and conductivity to show the frequencyt impact on both the vertical and horizontal reflection coefficients.

                    

Relative
permittivity



Conductivity
(S/m)




 
 

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