<div dir="ltr"><div>Hi,</div><div><br></div><div>Thank you for the response. I have some confusion. If I define atoms in a unit cell and then define k1 k2 k3 (k points) it will indicate a 3D system right? If I define k1 k2 1, it will indicate a 2D system in the xy plane, 1 1 k3 (1D system) and 1 1 1(0D system). Then why would the calculation be considered computationally large if I define 10 nm width ( rather I reduce my system size from infinite to 10 nm)? Can you explain it to me?</div><div><br></div><div>FOr example, graphene</div><div>Atomic Positions</div><div>C 0.3333333 0.666666 0.5</div><div>C 0.6666666 0.333333 0.5</div><div><br></div><div>K_Points</div><div>12 12 1 0 0 0 <br></div><div><br></div><div>pw.x < <a href="http://scf.in">scf.in</a> > scf.out</div><div>ph.x <<a href="http://ph.in">ph.in</a>>ph.out</div><div>q2r.x < <a href="http://q2r.in">q2r.in</a> >q2r.out</div><div>matdyn.x<<a href="http://matdyn.in">matdyn.in</a>>matdyn.out</div><div><br></div><div>This provides phonon dispersion for graphene which is infinitely long in the x and y plane. If it works out for some reasonable time. Why does it take time for the system which is infinitely long in x direction and y direction to have a finite width of 10 nm (24 unit cells)?</div><div><br></div><div>Thank you</div><div><br></div><div>Best</div><div>Jahid<br></div></div><br><div class="gmail_quote"><div dir="ltr" class="gmail_attr">On Sat, Dec 24, 2022 at 5:31 AM PAULATTO Lorenzo <<a href="mailto:lorenzo.paulatto@cnrs.fr">lorenzo.paulatto@cnrs.fr</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">
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Dear Jahid, you have to decide precisely what you want, than you may be able to simulate it in different ways. A width of 10nm is probably too large for a direct DFT calculation of phonons, in this case you can use the phonons for the unit cell and add the
finite size as a perturbation with Green function methods. I know a paper where this is done, but there are probably others, and other methods. <a href="https://hal.archives-ouvertes.fr/hal-03011389" target="_blank">https://hal.archives-ouvertes.fr/hal-03011389</a><br>
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<br>
Hth<br>
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LP<br>
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<div id="m_-7201110642685885907divRplyFwdMsg" dir="ltr"><font style="font-size:11pt" face="Calibri, sans-serif" color="#000000"><b>From:</b> users <<a href="mailto:users-bounces@lists.quantum-espresso.org" target="_blank">users-bounces@lists.quantum-espresso.org</a>> on behalf of Md. Jahid Hasan Sagor <<a href="mailto:md.sagor@maine.edu" target="_blank">md.sagor@maine.edu</a>><br>
<b>Sent:</b> Saturday, December 24, 2022 10:17:28 AM<br>
<b>To:</b> Quantum ESPRESSO users Forum<br>
<b>Subject:</b> [QE-users] Phonon Dispersion of graphene</font>
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<div dir="ltr">
<div>Hi,</div>
<div><br>
</div>
<div>Please help if you can. I am trying to find out the dispersion relation of graphene. I know that to find out the relation I have to use pw.x, ph.x, q2r.x and matdyn.x. But the problem is, after applying all the packages, I might get a phonon dispersion
relation of graphene which is infinitely long in x and y direction. However, in my model I am using a finite width of graphene around 10nm (24 unit cell in the vertical direction). Which command in QE can do this for me so that I can model a graphene which
is infinitely long in x direction and 10 nm in y direction?</div>
<div><br>
</div>
<div>Best Regards</div>
<div>Md Jahid Hasan<br>
</div>
</div>
</div>
</div>
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