Complete screening of an Electric field?

AI Thread Summary
Screening refers to the reduction of an electric field in materials, particularly in metals, where free electrons rearrange to minimize energy in response to an external field. This phenomenon occurs due to the collective movement of electrons, which creates a counteracting electric field that diminishes the original field's strength. Screening can happen with both static and varying electric fields, although the effectiveness may differ based on the field's characteristics. Complete screening implies that the electric field is reduced to zero within the material, but achieving this state can depend on the specific conditions and material properties. Understanding screening is essential for grasping how electric fields interact with solid materials, especially in the context of electron density and energy minimization.
RoseSunflower
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Hi,
I have difficulty understanding the term screening.
Screening is reducing of the electric field, as far as I have understood until now.

1. Why does screening occurs? Is it due to collective interaction of plasmons?
2. If we have a slow electric field, will screening occur or will it not occur? Same question for fields that varies a lot.
3. If the electric field is reduced as much as possible, does that means that screening = 0 and that it is complete?

Thank you.
 
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RoseSunflower said:
Hi,
I have difficulty understanding the term screening.
Screening is reducing of the electric field, as far as I have understood until now.

1. Why does screening occurs? Is it due to collective interaction of plasmons?
2. If we have a slow electric field, will screening occur or will it not occur? Same question for fields that varies a lot.
3. If the electric field is reduced as much as possible, does that means that screening = 0 and that it is complete?

Thank you.
Welcome to the PF. :smile:

Do you mean Electric field shielding, like with a Faraday Cage? https://en.wikipedia.org/wiki/Faraday_cage
 
Thank you :)
No, actually I am looking at electric field screening for solids (metals). I read Wikipedias page about it but I still don't get it.
 
If you make a hollow inside a metal block and sit inside it, you are shielded from any electric fields outside. For a static electric filed, the screening is complete.
 
Chandra Prayaga said:
If you make a hollow inside a metal block and sit inside it, you are shielded from any electric fields outside. For a static electric filed, the screening is complete.
Could you answer my questions as in 1, 2 and 3? I don't understand where the hollow comes from. And when the screening is complete.
 
OK. We may be talking of totally different things. Could you please desctibe what you mean by the word "screening?". Perhaps if you could give us the reference to the Wikipedia pages you have read, we could get the context.
 
Chandra Prayaga said:
OK. We may be talking of totally different things. Could you please desctibe what you mean by the word "screening?". Perhaps if you could give us the reference to the Wikipedia pages you have read, we could get the context.
I am looking at electric field screening for solids (metals). Thomas-Fermi screening. I don't know if its the same or two different things though...
 
Thanks. This is a topic on which I have no views.
 
No, plasmons are something else, this deals primarily with, e.g., the free electron gas in a metal. An externally applied electric field causes electrons to move around in such a way as to minimize the energy in the bulk. The configuration of electron density is such that the externally applied field becomes negated on the other side of this layer. An analogous thing happens to a charge that is introduced into the solid. A change of density in a spherical layer forms to counteract it. These are the screening effect that you are referring to.
 
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