Why Can't Electrons Occupy the Band Gap in a Material?

  • Thread starter Thread starter scientifico
  • Start date Start date
  • Tags Tags
    Band Band gap Gap
scientifico
Messages
181
Reaction score
0
Hello, do you know why no electron can stay in the band gap? Is it impossible at every energy?

Thank you!
 
Physics news on Phys.org
Do you know no electron can stay between -13.6eV and -3.4eV energy levels in an isolated Hydrogen atom? Now, apply the analogy.
 
Yes but why they cannot stay there?
What does impede them to stay in that levels^
 
Bloch's theorem says that anytime you have a periodic potential (like in a lattice of a metal or semiconductor where the atoms are equally spaced apart), then the solutions to Schrodinger's Equation will be plane waves, i.e. \psi ~ e^{i kx} where k is the wave number. When you actually solve a particular problem, you will find certain restrictions on k, that is, you will find for certain values of k, no such plane wave solutions exist. Since k is related to the energy, then you also get restrictions on the energy. That is, for certain values of the energy, there will be no valid solutions to Shrodinger's Equation. These energy levels where no solution exists are referred to as Energy gaps, or Band gaps. The reason the electron can't be on one of these gaps is because there is no solution to Shrodinger's equation in these regions, hence they are forbidden.
 
Because there are no energy levels for them to sit in.

Energy levels are time-independent solutions to the Schrodinger equation.

Claude.
 

Thread 'Stability of persistent currents in superconductors regardless of temperature'

From the BCS theory of superconductivity is well known that the superfluid density smoothly decreases with increasing temperature. Annihilated superfluid carriers become normal and lose their momenta on lattice atoms. So if we induce a persistent supercurrent in a ring below Tc and after that slowly increase the temperature, we must observe a decrease in the actual supercurrent, because the density of electron pairs and total supercurrent momentum decrease. However, this supercurrent...
View full post »

Thread 'Instantaneous dipole moment and orbitals'

Hi. I have got question as in title. How can idea of instantaneous dipole moment for atoms like, for example hydrogen be consistent with idea of orbitals? At my level of knowledge London dispersion forces are derived taking into account Bohr model of atom. But we know today that this model is not correct. If it would be correct I understand that at each time electron is at some point at radius at some angle and there is dipole moment at this time from nucleus to electron at orbit. But how...
View full post »

Similar threads

I Insulator band gap and applied voltage?
Replies
2
Views
3K
I Why diode with larger band gap has larger onset potential?
Replies
7
Views
3K
B What Does Not Allowed in Quantum Theory Mean Regarding Band Gaps?
Replies
1
Views
4K
A Criticality, phase transitions and closing bandgap
Replies
6
Views
3K
Explaining the Absence of Band Gaps in Superconductors
Replies
5
Views
7K
A Energy gap between energy bands in solid state physics
Replies
4
Views
6K
Why is the band offset of an LED equal to the band gap?
Replies
1
Views
2K
I Are the electrons in the conduction band completely free?
Replies
11
Views
4K
Electron affinity, work function, band gap
Replies
3
Views
15K
I Relationship between the depletion region and the band gap of a diode?
Replies
3
Views
6K

Hot Threads

Recent Insights

Back
Top