Momentum conservation in a direct transition

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Discussion Overview

The discussion revolves around the conservation of momentum during transitions from the valence band to the conduction band in direct-gap materials. It explores the implications of group velocity changes and effective mass in this context, focusing on theoretical and conceptual aspects of quasiparticle models.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification

Main Points Raised

  • One participant questions how momentum is conserved during a transition when the group velocity of the electron changes significantly.
  • Another participant emphasizes the importance of the quasiparticle model, noting that group velocity and effective mass can differ at the same k-value in the conduction and valence bands.
  • A subsequent post seeks clarification on whether "group velocity times effective mass" is conserved during direct transitions.
  • A participant confirms that this relationship holds true but cautions that crystal momentum is conserved only up to a reciprocal lattice vector, and effective mass approximations are valid when bands are approximately parabolic near transition points in k-space.
  • It is noted that total momentum conservation is still applicable even when effective mass approximations do not hold, though it may not be as straightforward to observe.

Areas of Agreement / Disagreement

Participants express varying degrees of understanding regarding momentum conservation and effective mass, with some agreement on the role of effective mass in transitions, but no consensus on the implications of momentum conservation in all scenarios.

Contextual Notes

Limitations include the dependence on the effective mass approximation and the conditions under which crystal momentum conservation is applicable, particularly in relation to the parabolic nature of the bands.

hokhani
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When a transition from valence band to conduction band happens (in a direct-gap material), how the momentum is conserved while the group velocity of electron is changed considerably?
 
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It is important to consider that we are dealing with a quasiparticle model here, where a lot of the microscopic physics goes into some parameters. Away from k=0 there may be a different group velocity at the same k in the conduction and valence band, but at the same time the effective mass will also be different.
 
Cthugha said:
Away from k=0 there may be a different group velocity at the same k in the conduction and valence band, but at the same time the effective mass will also be different.
By this you mean that "group velocity times effective mass" is always conserved in the direct transition?
 
Yes, but one should take the usual caveats into account like crystal momentum only being conserved up to a reciprocal lattice vector. An electron with crystal momentum \hbar k can be described equivalently to a free particle with momentum \hbar k, if we assign it the right effective mass. The effective mass is given by the curvature of the parabola of the band. Therefore, momentum conservation works in that easy way as long as effective mass is a good approximation, that is, when the bands are approximately parabolic at the transition points in k-space. This is usually the case in direct band gap materials around the band gap.

Total momentum is of course also conserved when this is not the case, but one cannot see it that easily.
 
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