<div dir="ltr">Thank you for your feedback<div>As you said, I have clustered the Al on one side of supercell and "layered" like distribution.</div><div>I've tried different distributions before. I have had some attempts where "x sgroup" gives different space groups.<br></div><div>For example, on my last attempt, I replaced the 1st, 4th, 5th, 8th, 9th, 12th, 13th and 18th
of the 16 In atoms
with Al atoms. (Total: 8 Al + 8 In)</div><div>- x nn </div><div>- copy case.struct_nn case.struct (9 atoms: 2 Ag, 1 Al, 1 In, 5 S) </div><div>- x nn</div><div>- copy
case.struct_nn case.struct
(I repeated this step one more time because "x nn" gave warning again). This time 10 atoms: 2 Ag, 1 Al, 1 In, 6 S</div><div>- x nn</div><div>- x sgroup</div><div>And finally the space group turns 20 (C 2 2 21) Orthorombic C-base centered.</div><div>As a result, a different space group from the original struct file(122_I-42d) was created.<br></div><div>In the struct file, the result appears to be OK.</div><div>2 Ag: at 4 different positions=8 Ag, </div><div>1 Al: at 4 different positions= 4 Al, </div><div>1 In: at 4 different positions=4 In, <br></div><div>6 S: at 2+2+4+4+2+2 different positions=16 S</div><div>I viewed the structure in the xcrysden program. Al and In atoms appear to be homogeneously distributed. <br></div><div>I continue the calculation with this struct file and space group. I will share the result with you.<br></div><div><br></div></div><br><div class="gmail_quote"><div dir="ltr" class="gmail_attr">Peter Blaha <<a href="mailto:pblaha@theochem.tuwien.ac.at">pblaha@theochem.tuwien.ac.at</a>>, 25 Oca 2021 Pzt, 21:35 tarihinde şunu yazdı:<br></div><blockquote class="gmail_quote" style="margin:0px 0px 0px 0.8ex;border-left:1px solid rgb(204,204,204);padding-left:1ex">It is VERY important to check which In atoms you replace by Al.<br>
View your structure and check: Did you cluster the Al on one side of the <br>
supercell ? Did you introduce a "layered" like distribution ? ....<br>
<br>
Most likely you want a "random" substitution, without any ordering <br>
(otherwise experiment might have found some order).<br>
<br>
Most likely, the "ideal" randomly substituted structure will even have <br>
P1 spacegroup, i.e. all symmetry operations are lost (at least for a <br>
larger supercell).<br>
<br>
PS: Experiment measures an "average structure", and therefore find a <br>
high symmetry SG. They put on the same position half a In and half a Al <br>
atom.<br>
Of course, this is not reality.<br>
<br>
Am 24.01.2021 um 21:31 schrieb Serhat Ayık:<br>
> Dear Wien2k users,<br>
> In my original struct file, I have (B Lattice) 3 non equiv. atoms <br>
> (Chemical form: AgInS2), space group 122_I-42d, and 8 number of symmetry <br>
> operations.<br>
> I do 2x2x2, P lattice type supercell and I have 48 non equiv. (16 Ag, 16 <br>
> In, 16 S) atoms. I want chemical form like AgAl(0.5)In(0.5)S2. I am <br>
> replacing 8 In atoms with 8 Al atoms. Finally, I have 16 Ag, 8 Al, 8 In <br>
> and 16 S in struct file.<br>
> Then, I do<br>
> - x nn (nn-bondlength factor:2)<br>
> copy case.struct_nn to case.struct. (After this step, I have 7 atoms "2 <br>
> Ag, 1 Al, 1 In, 3 S" in case.struct)<br>
> - repeat x nn<br>
> - x sgroup<br>
> warning: !!! Number of inequivalent atoms has changed. !!! Old value= 48 <br>
> New value= 7 warning: !!! Unit cell has been reduced.<br>
> sgroup found: 17 (P 2 2 21)<br>
> <br>
> I think the space group shouldn't change.<br>
> Is it true that the space group changes? Or am I making a mistake somewhere?<br>
> <br>
> Regards<br>
> <br>
> <br>
> <br>
> <br>
> <br>
> <br>
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