How to get real part of Sigma
Posted: Tue Mar 11, 2014 2:36 pm
Dear GW team,
I am trying to perform some calculations with Abinit to check some mathematical results.
For instance, I would like to plot the function \omega \to Re ( \Sigma_{ii} (\omega) ) for omega in the real axis.
However, if I am correct, the only thing I can get related to those quantities is the evaluation of the spectral function (in the file out.SIG).
However :
1/ I don't understand everything in the .SIG file.
I have something like
Ok, so the first number is the value of omega in the real axis, and for each band, I have 3 values... what are they exactly ? I can not find any documentation about that...
2/ I want to use the ppmodel=4 (Engel and Farid), which gives real-valued Sigma_ii(\omega), so that (I guess) the spectral function is highly degenerate, and I won't be able to work with it. How can I get just the real part of the self-energy ?
3/ How did you get the very nice picture in the 4th chapter of this page : http://www.abinit.org/documentation/hel ... y_mbt.html
Thanks a lot for your answer,
David Gontier
I am trying to perform some calculations with Abinit to check some mathematical results.
For instance, I would like to plot the function \omega \to Re ( \Sigma_{ii} (\omega) ) for omega in the real axis.
However, if I am correct, the only thing I can get related to those quantities is the evaluation of the spectral function (in the file out.SIG).
However :
1/ I don't understand everything in the .SIG file.
I have something like
# k = 0.000000 0.000000 0.000000
# b = 4 5
-0.54423E+02 -0.18931E+02 0.32133E-08 0.36350E-12 -0.57501E+01 0.36375E+00 0.25944E-04
-0.53876E+02 -0.19173E+02 0.00000E+00 0.00000E+00 -0.56379E+01 0.00000E+00 0.00000E+00
-0.53329E+02 -0.19337E+02 0.00000E+00 0.00000E+00 -0.57016E+01 0.00000E+00 0.00000E+00
...
Ok, so the first number is the value of omega in the real axis, and for each band, I have 3 values... what are they exactly ? I can not find any documentation about that...
2/ I want to use the ppmodel=4 (Engel and Farid), which gives real-valued Sigma_ii(\omega), so that (I guess) the spectral function is highly degenerate, and I won't be able to work with it. How can I get just the real part of the self-energy ?
3/ How did you get the very nice picture in the 4th chapter of this page : http://www.abinit.org/documentation/hel ... y_mbt.html
Thanks a lot for your answer,
David Gontier