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

In summary, in a complex index of refraction, the real part represents the phase-change of the incoming wave while the complex part attenuates it. When calculating phase velocity using v = c/n, we should use the real part of n. Points of constant phase are determined by Re(n)x/c-t=const, which move with the speed c/Re(n). Thank you for explaining.
  • #1
Niles
1,866
0
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.
 
Science news on Phys.org
  • #2
Hence a monochromatic wave would be [tex]\exp(i\omega(nx/c-t) =\exp(-\omega \Im(n)x/c)\exp(i\omega\Re(n)x/c-t)[/tex].So points of constant phase are determined by Re(n)x/c-t=const which move with the speed c/Re(n).
 
  • #3
I see, thanks!
 

1. What is the "complex index of refraction"?

The complex index of refraction is a quantity used in optics to describe the way light waves interact with a material. It consists of two components: a real part, which measures how much a material slows down light, and an imaginary part, which measures how much light is absorbed by the material.

2. How is the complex index of refraction measured?

The complex index of refraction can be measured experimentally using various techniques, such as ellipsometry, interferometry, or spectrophotometry. These methods involve shining a beam of light onto a material and analyzing how it is reflected or transmitted.

3. What is the significance of the complex index of refraction?

The complex index of refraction is important because it helps us understand how light interacts with different materials. It is used to calculate properties such as reflectivity, transmittance, and absorption, which have practical applications in fields such as optics, materials science, and engineering.

4. How does the complex index of refraction vary with wavelength?

The complex index of refraction can vary significantly with wavelength, meaning that different colors of light will interact with a material differently. This is known as dispersion and can be seen in phenomena such as rainbow formation or the separation of light into different colors by a prism.

5. Can the complex index of refraction be negative?

Yes, the complex index of refraction can be negative for certain materials. This means that light waves are travelling in the opposite direction of the electric field, which can lead to unusual optical effects such as negative refraction. These materials, known as metamaterials, have potential applications in cloaking devices and superlenses.

Similar threads

Refractive index using a traveling microscope
    • Optics
Replies
3
Views
2K
I Colloid complex refractive index from UV-vis spec
    • Atomic and Condensed Matter
Replies
1
Views
901
I Is photon energy negative in a negative-index metamaterial?
    • Quantum Physics
Replies
11
Views
1K
Refractive Index: Variations & Formula Proof
    • Optics
Replies
4
Views
2K
A How to compute phase gradient from Snell's law?
    • Optics
Replies
1
Views
1K
Why is the refractive index for red lower than for blue?
    • Optics
Replies
7
Views
2K
Do the Relative Permittivity and Refractive Index of Water Match Up?
    • Optics
Replies
1
Views
3K
I Interference - two waves of different frequencies - beat velocity
    • Optics
Replies
4
Views
1K
How to find the speed of light practically?
    • Optics
Replies
7
Views
2K
Dependence of index of refraction on frequency
    • Optics
Replies
15
Views
2K

Hot Threads

Recent Insights

Back
Top