Phase velocity: Using the real or modulus of complex index of refraction?

AI Thread Summary
In discussions about phase velocity and the complex index of refraction, the real part of the index influences the phase change of a wave, while the imaginary part accounts for wave attenuation. To calculate phase velocity using the formula v = c/n, the real part of the refractive index should be used for determining the speed of phase propagation. The relationship is illustrated through the expression of a monochromatic wave, which shows that points of constant phase move at speed c/Re(n). The modulus of the complex index is not necessary for phase velocity calculations. Understanding these distinctions is crucial for accurate wave analysis in optics.
Niles
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Hi

When we have a complex index of refraction, the real part determines the phase-change of the incoming wave and the complex part attenuates the wave. When we e.g. want to find the phase velocity using v = c/n, when should we use the real part of n or the modulus of n?


Niles.
 
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Hence a monochromatic wave would be \exp(i\omega(nx/c-t) =\exp(-\omega \Im(n)x/c)\exp(i\omega\Re(n)x/c-t).So points of constant phase are determined by Re(n)x/c-t=const which move with the speed c/Re(n).
 
I see, thanks!
 
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