<div dir="ltr"><div class="gmail_default" style="font-size:large">Dear Prof. Oleg,</div><div class="gmail_default" style="font-size:large"><br></div><div class="gmail_default" style="font-size:large">I could not understand how to find the mstar for CBM and VBM.</div><div class="gmail_default" style="font-size:large">I came across [1], where you are talking about case.klist_band. I understand that the position of "G" Point is at 13 in that case so we need to consider KP-13. Then the entry under KP-13 covers the band index. We can get the band index from the case.bands.agr file.</div><div class="gmail_default" style="font-size:large">Please correct me if I am wrong.</div><div class="gmail_default" style="font-size:large"><br></div><div class="gmail_default" style="font-size:large">In my case the CBM/CMB is at N-point which is located at 622 row number in case.klist_band. But I have only 20 K-points in my case.klist and thus the total KP in mstar output file is also 20.</div><div class="gmail_default" style="font-size:large">In my case.bands.agr the VBM band index is 75. So what I understand is I should find the 75th band index in mstar output file under KP-X (but here X is unknown for me as case.klist file has only 20 k-points).</div><div class="gmail_default" style="font-size:large">I am keeping my all necessary files here [2].</div><div class="gmail_default" style="font-size:large"><br></div><div class="gmail_default" style="font-size:large">NOTE: I did not use case.klist_band file for the calculation and I am keeping case.klist_band and case.bands.agr files [2] from my previously finished calculation for band structure.</div><div class="gmail_default" style="font-size:large"><br></div><div class="gmail_default" style="font-size:large">[1]. <a href="https://www.mail-archive.com/wien@zeus.theochem.tuwien.ac.at/msg20713.html" target="_blank">https://www.mail-archive.com/wien@zeus.theochem.tuwien.ac.at/msg20713.html</a></div><div class="gmail_default" style="font-size:large"><br></div><div class="gmail_default" style="font-size:large">[2]. <a href="https://we.tl/t-FsnY88gTgx">https://we.tl/t-FsnY88gTgx</a></div><div class="gmail_default" style="font-size:large"><br></div><div class="gmail_default" style="font-size:large">Thank you</div><div class="gmail_default" style="font-size:large">Bhamu</div><div class="gmail_default" style="font-size:large"><br></div></div><br><div class="gmail_quote"><div dir="ltr" class="gmail_attr">On Thu, Mar 4, 2021 at 3:01 AM Rubel, Oleg <<a href="mailto:rubelo@mcmaster.ca" target="_blank">rubelo@mcmaster.ca</a>> wrote:<br></div><blockquote class="gmail_quote" style="margin:0px 0px 0px 0.8ex;border-left:1px solid rgb(204,204,204);padding-left:1ex">You are right, it is not a universal line. It implies that the system is not magnetic (N at the end). Also, it avoids relativistic local orbitals (RLOs), which is default in init_so_lapw. I cannot point to a reference, but it seems that optic is not compatible with RLOs? (Maybe someone can comment.)<br>
<br>
Thank you<br>
Oleg<br>
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