<div>From my understanding, correct me if I am wrong.</div><div><br></div>DFT-Cohesive energy is decided by the functional and the pseudo-potential. If the pseudo-potential and the functional predict correctly the ground state of isolated atom and the bulk, we usually get less than 10% error. This is the case of Al with GGA (I believe). For some other, especially in transition metal where the ground states of isolated atoms (and/or bulks) are not well predicted within DFT, the error in cohesive energy could be 20% or more.<div>
<br></div><div>When a pseudo-potential is generated, it must be well tested before releasing. It's safe to use.<br><br><div class="gmail_quote">On Wed, Sep 16, 2009 at 2:19 AM, udayagiri sai babu <span dir="ltr"><<a href="mailto:udayagiri3@gmail.com">udayagiri3@gmail.com</a>></span> wrote:<br>
<blockquote class="gmail_quote" style="margin:0 0 0 .8ex;border-left:1px #ccc solid;padding-left:1ex;">Dear PWSCF users<br>I calculated the cohesive energy for aluminium using GGA potential, which came out to be 3.59 ev/atom. When i compared this value with that of given in Kittel (3.34ev/atom) the error is 7.5%. Here i would like to know how much error in cohesive energy is acceptable and also if somebody can comment on error tolerance in lattice parameter and Bulk modulus (for GGA as well as LDA) as well it would be nice.<br>
Thanks in advance<br clear="all"><font color="#888888"><br>-- <br>U.Saibabu<br>PhD student,<br>Deformation mechanisms modeling group,<br>Materials engineering department,<br>IISc Bangalore,<br>India.<br>
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<br></blockquote></div><br><br clear="all"><br>-- <br>--------------------------------------------------<br>Duy Le<br>PhD Student<br>Department of Physics<br>University of Central Florida.<br>
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