All right. I don't think it is a good idea to spam the mailing list with
this, so let me continue the discussion privately. If anyone else's
interested, please let me know and I will add him/her to the conversation.
The last thing to mention in an email addressed to the whole mailing list
coul
Dear Karel
Thanks sir for the comment, yes sir sure mostly I am working on the optic
sides, it will be great if share your comments on this. But i will also
want to know about the electronic structure, if possible.
Regards
SIkander
On Mon, Mar 21, 2016 at 2:26 AM, Karel Vyborny wrote:
> Dear Sik
Dear Sikander,
it is not clear in what respect you are trying to compare WIEN2k to
experiments. Let me add to what Stefaan sent you another quantity:
optical absorption. Attached is an example of the calculated imaginary
part of epsilon to be compared with experimental data shown in Fig. 1 of
Dear Stefaan
Thanks a lot sir.
Regards
SIkander
On Mon, Mar 21, 2016 at 1:53 AM, Stefaan Cottenier <
stefaan.cotten...@ugent.be> wrote:
>
> I have a query about comparing my calculation using the WIEN2K code with
>> experimental data. We are doing our calculations at absolute temperature
>> and t
I have a query about comparing my calculation using the WIEN2K code with
experimental data. We are doing our calculations at absolute temperature
and the experimentalist is doing his measurement at room temperature or
above. Then how I compare my calculations with the experimental,.
The differ
Dear all
I have a query about comparing my calculation using the WIEN2K code with
experimental data. We are doing our calculations at absolute temperature
and the experimentalist is doing his measurement at room temperature or
above. Then how I compare my calculations with the experimental,.
Regard
6 matches
Mail list logo