you can read it with vmd or xcrysden. <span></span><br><br>On Wednesday, December 17, 2014, Jing Wang <<a href="mailto:ffyuyuzaoa@gmail.com">ffyuyuzaoa@gmail.com</a>> wrote:<br><blockquote class="gmail_quote" style="margin:0 0 0 .8ex;border-left:1px #ccc solid;padding-left:1ex"><div dir="ltr"><div><div><div><div><div><div>Hi everyone,<br><br></div>I'm really confused about how can I read the local potential out from the scf calculation. I used pp.x, plot_num=1 to extract the scf potential of the the system, however I can't really under stand the output? Should it show the potential in cofficients of G-vectors? I really have no ideas what these numbers are (the main part have 5 columns of numbers )..<br><br></div><div>Thank you very much for any suggestions!<br></div><div><br></div>Head of the output is like this:<br><br> 25 25 100 25 25 100 2 1<br> 4 4.64900000 0.00000000 4.00000000 0.00000000 0.00000000 0.00000000<br> 153.2912575334 4.0000000000 70.0000000000 1<br> 1 C 4.00<br> 1 0.000000000 0.000000000 0.000000000 1<br> 2 0.500000000 -0.288675135 0.000000000 1<br> 3.248268856E+00 3.159870688E+00 2.515974539E+00 6.186557012E-01 -2.154636042E+00<br> -3.866568628E+00 -3.274420891E+00 -2.365272143E+00 -2.086628582E+00 -1.945051309E+00<br> -1.918992011E+00 -1.927145835E+00 -1.943940931E+00 -1.943940931E+00 -1.927145835E+00<br> -1.918992010E+00 -1.945051309E+00 -2.086628581E+00 -2.365272143E+00 -3.274420890E+00<br> -3.866568627E+00 -2.154636041E+00 6.186557014E-01 2.515974539E+00 3.159870688E+00<br> 3.159870688E+00 3.159870688E+00 2.802339131E+00 1.452305376E+00 -1.033031298E+00<br> -3.409639826E+00 -3.654745566E+00 -2.575759384E+00 -2.021392120E+00 -1.762140769E+00<br> -1.637123367E+00 -1.599819700E+00 -1.588050229E+00 -1.591678304E+00 -1.588050228E+00<br> -1.599819700E+00 -1.637123366E+00 -1.762140768E+00 -2.021392119E+00 -2.575759383E+00<br> -3.654745566E+00 -3.409639826E+00 -1.033031298E+00 1.452305376E+00 2.802339131E+00<br> 2.515974539E+00 2.794920980E+00 2.515974539E+00 1.452305376E+00 -6.088327143E-01<br> -2.976954364E+00 -3.787496708E+00 -2.827784418E+00 -2.048224903E+00 -1.714196738E+00<br> -1.488710208E+00 -1.380390580E+00 -1.313398615E+00 -1.296957599E+00 -1.296957599E+00<br> -1.313398615E+00 -1.380390580E+00 -1.488710208E+00 -1.714196738E+00 -2.048224903E+00<br> -2.827784418E+00 -3.787496708E+00 -2.976954363E+00 -6.088327142E-01 1.452305376E+00<br> 6.186557014E-01 1.426203806E+00 1.426203806E+00 6.186557014E-01 -1.033031298E+00<br> -2.976954363E+00 -3.792558359E+00 -2.995197487E+00 -2.094921250E+00 -1.698073457<br><br><br></div>Thanks.<br><br></div>Jing Wang<br></div>Dept. of Physics<br></div>Georgia Tech, GA, U.S.A<br></div>
</blockquote><br><br>-- <br><div dir="ltr">===================<br>Dr. Xiaochuan Ge (Giovanni)<div>Center for Functional Nanomaterials<br><div>Brookhaven national laboratory </div><div>===================</div></div></div><br>