Why Can't We See Diffraction from Metal Surfaces?

In summary, metals contain a sea of free electrons and their refractive index is a complex number, with the imaginary part responsible for absorption and reflection of electromagnetic waves. This sea acts as a cover on the surface of metals, making it difficult for waves to see the grating and resulting in no diffraction pattern. This is in contrast to crystals, which do not have a sea of free electrons and therefore can exhibit diffraction. However, X-ray and gamma rays can pass through the surface of metals and see the grating, allowing for diffraction to occur. In short, the presence of a sea of free electrons and the complex refractive index of metals explain why we cannot see diffraction from metal surfaces.
  • #1
brianeyes88677
13
0
The atoms in a metal (ex. Cu) are arranged as a 3-D grating. But to our common sense ,smooth metal surfaces only reflect lights. Why can't we see diffraction from metal surfaces?
 
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  • #2
The metals contain a see of free electrons. In EM we know refractive index for metals is complex. Imaginary part of n is responsible for absorption and reflection of EM waves. This sea is like a cover which is in surface of metals. Therefore the wave cannot see grating.

Why can't we see diffraction pattern from crystals without see of free electrons like dielectrics?

Since from formula of diffraction sin(Teta)=i*landa/d must d>landa( <=> sin(Teta)<1) and in crystal the d(distance between two atoms) is about angstrom therefore there is no diffraction pattern for ultraviolet up to radio waves. for example we don't see light diffraction from glasses.

X-ray and gamma have diffraction through crystals and X-ray is one of must important instrument in crystallographic.
Also in metals we have X-ray diffraction. Gamma and X-ray can pass from surface and see grating. This lead to have diffraction from metals.

I apologize for scribbling English. My language isn't English but i am trying to improve it.
 
  • #3
I make mistake in above,difference of real part of n and the environment refractive index is responsible of reflection.
 
  • #4
abbas_majidi said:
The metals contain a see of free electrons. In EM we know refractive index for metals is complex. Imaginary part of n is responsible for absorption and reflection of EM waves.

What do you mean for "imaginary part of n is responsible for absorption and reflection of EM waves" ?
My native language isn't English too.
 
  • #5
In Electromagnetic theory refractive index of metals(n) obtain as complex number and imaginary part of n arises from absorption of EM waves by metals. In other word complex n is Representative of absorption in matter.
 

FAQ: Why Can't We See Diffraction from Metal Surfaces?

Why do metal surfaces not show diffraction?

Metal surfaces do not show diffraction because they have free electrons that can easily move and absorb light, preventing it from scattering and causing diffraction patterns. This makes it difficult to observe diffraction from metal surfaces.

Can we see diffraction from all metals?

No, we cannot see diffraction from all metals. Only certain metals with specific crystal structures, such as silver and gold, have the ability to produce diffraction patterns because they have a regular arrangement of atoms that allows for the interference of light waves.

How does the thickness of a metal surface affect diffraction?

The thickness of a metal surface does not have a significant effect on diffraction. This is because the thickness of a metal surface is much larger than the wavelength of light, and the diffraction pattern produced by a single layer of atoms is not observable.

Why is diffraction observed when light passes through a small opening, but not when it hits a metal surface?

Diffraction is observed when light passes through a small opening because the size of the opening is comparable to the wavelength of light, causing the light waves to interfere with each other and produce a diffraction pattern. However, when light hits a metal surface, the regular arrangement of atoms in the metal causes the light to be absorbed and prevents the formation of a diffraction pattern.

Can diffraction be observed from metal surfaces with different textures or finishes?

Yes, diffraction can be observed from metal surfaces with different textures or finishes. This is because the texture or finish of the surface does not affect the regular arrangement of atoms in the metal, which is the main factor that determines whether diffraction can occur or not.

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