Kittel figure 9.12 (I attached it)

  • Thread starter ehrenfest
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In summary: No, in a) the electron is going up the negative gradient, and in b) the electron is going down the positive gradient.
  • #1
ehrenfest
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Homework Statement


This figure is driving me insane. How can the energy gradient point inwards! For the hole orbit. The shading represents filled orbits (I am pretty sure), so how can you possibly have orbits filled everywhere except the center of the First Brillioun zone. That is outrageous! What does a hole orbit physically mean??


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The Attempt at a Solution

 

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  • #2
Consider the 1D case. Your dispersion relations are in bands --- so you can get negative gradients even for +ve k. As the Fermi level goes up, you can start filling a band from high k's going towards k=0. It's hard to describe without drawing...
 
  • #3
genneth said:
Consider the 1D case. Your dispersion relations are in bands --- so you can get negative gradients even for +ve k.

What is "+ve k"?

genneth said:
As the Fermi level goes up, you can start filling a band from high k's going towards k=0.

How?
 
  • #4
See http://venables.asu.edu/qmms/band.gif as an example (it was the first reasonable one I could find with google images)

Now imagine filling up from the lowest energies. As the Fermi level crosses the first band, you start filling from low k to high k. But when it gets to the 2nd band it starts from high k --- at the zone boundary.
 
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  • #5
Just to be sure, you are referring to the energy versus k diagram on the right and using the fact that the first band is concave up and the second band is concave down? Although, they did not show it, I assume k=0 is below the minimum of the first band? Also, is k on the x-axis equal to the magnitude of the vector k or one of its components?
 
  • #6
Yes to all, and k is on the x-axis since we are considering a 1D situation. For higher dimensions, the dispersion relation is a surface through some k-E space, but the general idea holds --- within a band, the edge of the BZ can be lower in energy than the middle.
 
  • #7
OK. Referring to the attachment, can you explain why the sense of the orbit is opposite in a) and b)? It is an electron that is doing the orbit in both cases, right?
 

1. What is the Kittel figure 9.12?

The Kittel figure 9.12 is a diagram used to illustrate the magnetic anisotropy of a material. It shows the relationship between the external magnetic field and the magnetization of a ferromagnetic material.

2. How is the Kittel figure 9.12 used in scientific research?

The Kittel figure 9.12 is used in scientific research to study the magnetic properties of materials. It helps researchers understand the behavior of magnetization in different external magnetic fields and can provide insight into the underlying physical processes.

3. What does the slope of the curve in Kittel figure 9.12 represent?

The slope of the curve in Kittel figure 9.12 represents the magnetic anisotropy constant, which is a measure of the strength of the material's preferred direction of magnetization. A higher slope indicates a stronger anisotropy, while a lower slope indicates a weaker anisotropy.

4. Can Kittel figure 9.12 be used to compare different materials?

Yes, Kittel figure 9.12 can be used to compare the magnetic anisotropy of different materials. By analyzing the slope of the curve for each material, researchers can determine which material has a stronger or weaker anisotropy.

5. What other information can be obtained from Kittel figure 9.12?

In addition to the magnetic anisotropy, Kittel figure 9.12 can also provide information about the saturation magnetization and the magnetic anisotropy field of a material. These values can help researchers understand the behavior of the material in different magnetic fields and can aid in the development of new magnetic materials.

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