Dear Davide, thanks a lot for your answer. So, i have another question, <br>Where I can download the SVN version of GIPAW.?<br><br>Thank again<br><br>PhD std. Arles V. Gil Rebaza<br>IFLP - Argentina<br><br><div class="gmail_quote">
2012/12/13 Davide Ceresoli <span dir="ltr"><<a href="mailto:davide.ceresoli@istm.cnr.it" target="_blank">davide.ceresoli@istm.cnr.it</a>></span><br><blockquote class="gmail_quote" style="margin:0 0 0 .8ex;border-left:1px #ccc solid;padding-left:1ex">
Dear Arles,<br>
it is definitely possible. Beware that in GIPAW-4.3.1 there is<br>
a bug with USPP and EFG. I strongly advise to use norm-conserving<br>
pseudos and to switch off symmetry in the SCF calculation (nosym=.true.).<br>
These problems have been solved in the current SVN version of GIPAW.<br>
<br>
Best wishes,<br>
Davide<br>
<div><div class="h5"><br>
<br>
<br>
On 12/13/2012 04:52 PM, Arles V. Gil Rebaza wrote:<br>
> Dear QE users<br>
><br>
> Is possible calculate the Electric Field Gradient (EFG) in metallic compounds<br>
> (specifically with Fe atoms) using gipaw.x code and GIPAW pseudopotentials.??<br>
> In QE distribution are some examples to calculate the EFG in molecules. This<br>
> procedures is similar for metallic compounds or there is a different way to<br>
> calculated it.<br>
><br>
> Best<br>
><br>
> PhD std. Arles V. Gil Rebaza<br>
> IFLP - Argentina<br>
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