[Wien] BaTiO3.vcoul
Peter Blaha
pblaha at theochem.tuwien.ac.at
Mon Sep 14 15:52:44 CEST 2009
I don't quite understand where the problems are and where your numbers come from ???
The file case.vsp contains already R*V-total .
For a Ti atom its first value is -0.440393833562E+02 (close to 2 * 22
or for Oxygen it is: -0.161255917246E+02 2 * 8
In case.vcoul the radial expansion coeff. of R**2 * V-coul are stored.
The expansion reads (in a simplified form) r**2 * V = sum(LM) V_LM(r) Y_LM
This means, you have to multiply with a spherical harmonics Y_00, which is 1/sqrt(4pi)
So to obtain R*V :
for Ti the first value in case.vcoul is: -0.779715438164E-02;
since R0=0.00005000, you have to divide by R0 and divide by sqrt(4 pi). this gives 43.99
which is not bad after all .....
How did you produce your numbers ?
In any case, copy case.vcoul to case.clmval and use x lapw5 to produce the coulomb-pot in
real space along a line or in a plane.
John Rundgren schrieb:
> Dear All,
> With option R2V in BaTiO3.in0, BaTiO3.vcoul is written out. It is interesting to compare the files
>
> radius times BaTiO3.vsp
> radius squared times BaTiO3.vcoul (spherical part)
>
> The files start with the values given in the Table below:
>
> Atom Z r*vsp r*vcoul
> Ba 56 -111.3 -400.8
> Ti 22 -43.0 -157.8
> O 8 -15.6 - 60.4
>
> As User's Guide 4.2 says, vsp is in units of Rydbergs and r*vsp is approximately -2*Z. But what units and what approximation are used for r*vcoul ? User's Guide and the comments of file BaTiO3.vcoul are silent on this point.
>
> I had expected that r*vcoul/Z would be v_e_r_y close to an integer. Isn't it true that the centre of an atom is the same whether the atom is free or situated in a crystal ?
> Best regards,
> John
>
> John Rundgren
> Department of Theoretical Physics, Royal Institute of Technology (KTH),
> AlbaNova University Center, SE-10691 Stockholm, Sweden
> fax +46 8 5537 8216, voice +46 8 5537 8171,
> home page http://www.theophys.kth.se/~jru
> _______________________________________________
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> Wien at zeus.theochem.tuwien.ac.at
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--
P.Blaha
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Peter BLAHA, Inst.f. Materials Chemistry, TU Vienna, A-1060 Vienna
Phone: +43-1-58801-15671 FAX: +43-1-58801-15698
Email: blaha at theochem.tuwien.ac.at WWW: http://info.tuwien.ac.at/theochem/
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