How Does Electronic Susceptibility Affect EM Signal Propagation in a Dielectric Medium?

AI Thread Summary
Electronic susceptibility, χ, is frequency-dependent and complex in dielectric media, affecting electromagnetic (EM) signal propagation. The variation of electronic susceptibility with refractive index leads to a complex wavenumber, which includes an imaginary component. This results in dispersive behavior, where plane waves of different frequencies travel at varying speeds and experience different phase shifts. Consequently, pulse distortion occurs over time as signals propagate through the medium. Additionally, energy absorption may lead to attenuation of the signal with distance.
ian2012
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In general the electronic susceptibility, χ, is a function of frequency and is complex for a dielectric medium.
So what are the implications of this for the propagation of EM signals in a dielectric medium?

Since the electronic susceptibility varies with refractive index, and the refractive index varies with wave number k, then the wavenumber is also complex - so it has an imaginary component. What does this mean in terms of wave propagation (phase shift with frequency)?
 
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ian2012 said:
In general the electronic susceptibility, χ, is a function of frequency and is complex for a dielectric medium.
So what are the implications of this for the propagation of EM signals in a dielectric medium?

Since the electronic susceptibility varies with refractive index, and the refractive index varies with wave number k, then the wavenumber is also complex - so it has an imaginary component. What does this mean in terms of wave propagation (phase shift with frequency)?

It means the medium is dispersive. What that means is that planewaves of different frequencies travel at different speeds and have different phase shifts. In the time domain it means that there is distortion of a pulse as it travels. It may also mean that there is absorption of energy in the medium resulting in attentuation with distance.
 
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