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<p>Thank you,</p>
<p>I have encountered this problem before and I was able to use the orthorhombic cell, but in this case the task was much harder, and if sgroup had this ability to choose the most "compact" cell it would be nice.</p>
<p>For example a square cell is correct (in 2D), but if one puts lines at 45 degrees it is also correct in certain cases. Which is what is happening here, the program chooses 90+45 degrees instead of 90</p>
<p>I hope to make myself clear</p>
<p><br>
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<div id="x_divRplyFwdMsg" dir="ltr"><font face="Calibri, sans-serif" color="#000000" style="font-size:11pt"><b>De:</b> Wien <wien-bounces@zeus.theochem.tuwien.ac.at> en nombre de Peter Blaha <pblaha@theochem.tuwien.ac.at><br>
<b>Enviado:</b> miércoles, 12 de octubre de 2016 12:32:03 a. m.<br>
<b>Para:</b> A Mailing list for WIEN2k users<br>
<b>Asunto:</b> Re: [Wien] Change of structure symmetry</font>
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<div class="PlainText">It is not always mandatory to take the changes suggested by sgroup into
<br>
account. (This is the reason why it is not made automatically). For low <br>
symmetry structures (monoclinic) there are many possible settings and <br>
even the construction of the unit cell is not unique, but arbitrary <br>
equivalent choices exists.<br>
<br>
The following "rules" exist: Run<br>
<br>
x nn # and accept all changes to get the proper multiplicity of the <br>
atoms.<br>
x sgroup # and check if sgroup has reduced the unit cell (or changed <br>
the multiplicity). Only in this case you have to accept the changes by <br>
sgroup. ("Reduced" means: the total number of atoms in the cell got <br>
smaller). If sgroup just changed the lattice type or a,b,c,angles; there <br>
is no need to accept the scgroup changes.<br>
To be sure that you can neglect the changes, just remember the number <br>
of symmetry operations which sgroup has found.<br>
<br>
x symmetry # compare the number of symmetry operations from symmetry <br>
and sgroup. If this is the same (of course, the individual operations <br>
may be different) and symmetry also found identical site symmetry of all <br>
positions, you are save and can simply neglect sgroup.<br>
<br>
<br>
Am 12.10.2016 um 04:50 schrieb delamora:<br>
> I want to see how Cu interacts with the TiO2 surface, so I construct<br>
> with 'supercell' an enlarged cell, with<br>
> SG 35 (C m m 2)<br>
> then I attach Cu and O on the surface in a way that I break the symmetry<br>
> in the b direction<br>
> The cell is orthorhombic<br>
><br>
> CXY LATTICE,NONEQUIV.ATOMS: 21<br>
> MODE OF CALC=RELA unit=bohr<br>
> 11.187184 23.838706 23.838290 90.0 90.0 90.0<br>
><br>
> if I run initialize calculation and then sgroup the new cell changes to<br>
><br>
> CXZ LATTICE,NONEQUIV.ATOMS: 28 8 Cm<br>
> MODE OF CALC=RELA unit=bohr<br>
> 23.838706 33.712727 11.187184 90.0 90.0 135.000500<br>
><br>
> which is correct, but it is no longer orthogonal which is awkward, one<br>
> angle changes from<br>
> 90 to 135.0005<br>
> also the a, b, c => c, a, b<br>
><br>
> Also I cannot see the structure with XCrySDen, unless I change the<br>
> 135.0005 angle by little.<br>
><br>
> With the new structure and the old one I managed to make a new<br>
> TiO2.struct with orthorhombic and can be seen with XCrySDen<br>
><br>
> It would be nice that sgroup would generate a structure with the<br>
> orthorhombic symmetry<br>
><br>
> Saludos<br>
><br>
> Pablo de la Mora<br>
><br>
><br>
><br>
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><br>
<br>
-- <br>
--------------------------------------------------------------------------<br>
Peter BLAHA, Inst.f. Materials Chemistry, TU Vienna, A-1060 Vienna<br>
Phone: +43-1-58801-165300 FAX: +43-1-58801-165982<br>
Email: blaha@theochem.tuwien.ac.at WIEN2k: <a href="http://www.wien2k.at">http://www.wien2k.at</a><br>
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