Propability current
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Propability current
Hello,
I am trying to compute the propability current through a slab by using vasp. Vasp computes the full wavefunction internally, which I wrote into a file with its fourier coefficients and G-vectors at every kpoint and band for a slab with and without efield in z-direction. The bloch-function is as far as I know not written.
I have used a 3x3x3 Monkhorst and Pack k-point file and vasp reduced this from 27 to at least 6 kpoints, because of symmetrie.
As known from literature the propability current through a plane in xy direction can be calculated as the:
sum(G, G') over Cjk(G)*Cjk_conj(G')*exp(i*(G-G')*r)*i(Gz+k_z)
for each band and kpoint.
Vasp gives me the coefficients of the full wavefunction at the 6 irreducible kpoints. Because the propability current is mainly dependent on the k-vectors in z-direction, those k-vectors (k_z) are important with their weight (+/-) because of reflecting and transmitting tunneling currents.
When I now want to calculate the total propability current in one xy-plane I calculate the sum in xy-direction (included in r) in a special band and kpoint.
But the question is, which k-points do I have to take into account for the total current? Are it just the weighted kpoints of the ruduced brillouin zone, or of the complete brillouin zone? How can I get the other 27-6=21 kpoints from vasp and how are they then related to the fourier coefficients of the WAVECAR file? Is it somekind of linear combination?
Is it also possible to use just 3 kpoints, for example (0,0,0); (0,0,-0.5) and (0,0,+0.5)?
Can somebody help me?
Thank you!
Regards,
kristian
I am trying to compute the propability current through a slab by using vasp. Vasp computes the full wavefunction internally, which I wrote into a file with its fourier coefficients and G-vectors at every kpoint and band for a slab with and without efield in z-direction. The bloch-function is as far as I know not written.
I have used a 3x3x3 Monkhorst and Pack k-point file and vasp reduced this from 27 to at least 6 kpoints, because of symmetrie.
As known from literature the propability current through a plane in xy direction can be calculated as the:
sum(G, G') over Cjk(G)*Cjk_conj(G')*exp(i*(G-G')*r)*i(Gz+k_z)
for each band and kpoint.
Vasp gives me the coefficients of the full wavefunction at the 6 irreducible kpoints. Because the propability current is mainly dependent on the k-vectors in z-direction, those k-vectors (k_z) are important with their weight (+/-) because of reflecting and transmitting tunneling currents.
When I now want to calculate the total propability current in one xy-plane I calculate the sum in xy-direction (included in r) in a special band and kpoint.
But the question is, which k-points do I have to take into account for the total current? Are it just the weighted kpoints of the ruduced brillouin zone, or of the complete brillouin zone? How can I get the other 27-6=21 kpoints from vasp and how are they then related to the fourier coefficients of the WAVECAR file? Is it somekind of linear combination?
Is it also possible to use just 3 kpoints, for example (0,0,0); (0,0,-0.5) and (0,0,+0.5)?
Can somebody help me?
Thank you!
Regards,
kristian
Last edited by kh on Tue Feb 17, 2009 11:52 am, edited 1 time in total.
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Re: Propability current
Hi,
We're sorry that we didn’t answer your question. This does not live up to the quality of support that we aim to provide. The team has since expanded. If we can still help with your problem, please ask again in a new post, linking to this one, and we will answer as quickly as possible.
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VASP