Electrons in Metal: Wave-Particle Duality

In Summary, electrons in a metal exist as waves, but can be described using a semi-classical model when subjected to an electric field.
  • #1
Karim Habashy
33
1
Hi All,

Lets assume, we have piece of cubic copper of side length 1 cm metal with neutral charge, so:

1) The free electrons in this piece of copper exist everywhere as waves? , each electron with its quantum state.
2) On applying an external electric field the wave-function collapse and they start behaving like particles ?

Are the above conclusions right ?

Thanks
 
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  • #2
Karim Habashy said:
1) The free electrons in this piece of copper exist everywhere as waves? , each electron with its quantum state.
It is just a model, but that model is not so bad here.
Karim Habashy said:
2) On applying an external electric field the wave-function collapse and they start behaving like particles ?
No. Unless your "electric field" is something like visible light, with sufficient energy to excite electrons.
 
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  • #3
mfb said:
It is just a model, but that model is not so bad here.
Is there a more accurate model ?
mfb said:
No. Unless your "electric field" is something like visible light, with sufficient energy to excite electrons.
But how can we account for the drift velocity, due to electrons migration by applying an electric field
 
  • #4
There are electronic wavefunctions for drifting electrons.
 
  • #5
DrDu said:
There are electronic wavefunctions for drifting electrons.
You mean the electrons behaving as wave packets of plane waves ? , if so, its interesting how a field affects a wave packet.
Can we say an electron is a particle in reaction and a wave in action ?
 
  • #6
Karim Habashy said:
Is there a more accurate model ?
Depends on what you want to do.
But how can we account for the drift velocity, due to electrons migration by applying an electric field
A wavefunction can have a momentum, corresponding to drifting electrons.

Karim Habashy said:
Can we say an electron is a particle in reaction and a wave in action ?
Forget the whole idea of "wave or particle". An electron is neither. It is a quantum object.
 
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  • #7
What is your goal? To interpret quantum mechanics? To understand a metal ?
 
  • #8
my2cts said:
What is your goal? To interpret quantum mechanics? To understand a metal ?
Neither, I am just trying to comprehend, how electrons (quantum particles) exist everywhere in the metal and in the same time obeys Newtons laws of motion under the application of an electric field.
 
  • #9
You can describe electron motion and charge transport in metals using full quantum mechanical description via the Kubo formulation. But why would you want to if the characteristics that you want to measure can be described sufficiently by the semi-classical Boltzmann transport description? To want to use the full QM picture (which isn't easy at all) to get at those characteristics is like asking a house builder to use Special Relativity to do his job!

Zz.
 
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Related to Electrons in Metal: Wave-Particle Duality

1. What is wave-particle duality?

Wave-particle duality is the concept that subatomic particles, such as electrons, can behave as both waves and particles. This means that they exhibit properties of both a wave, such as interference and diffraction, and a particle, such as having a specific location and momentum.

2. How does wave-particle duality apply to electrons in metal?

In metals, electrons are confined to a lattice structure and can behave as both particles and waves. They can move freely through the metal as particles, but can also exhibit wave-like behavior when interacting with the metal lattice and other electrons.

3. What is the significance of wave-particle duality in the study of metals?

Understanding wave-particle duality in metals is crucial for studying their electronic properties and behavior. It helps explain phenomena such as electrical conductivity and heat conduction, and is also important for developing technologies such as transistors and semiconductors.

4. How do we observe the wave-like behavior of electrons in metals?

The wave-like behavior of electrons can be observed through experiments such as the double-slit experiment, which shows the interference pattern created by the electrons as they pass through two slits. This interference pattern is a characteristic of wave behavior.

5. Can electrons in metals exhibit both wave and particle behavior at the same time?

Yes, electrons can exhibit both wave and particle behavior simultaneously, depending on the experimental setup. This is known as the principle of complementarity, which states that a particle's wave and particle nature cannot be observed at the same time.

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