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ApolloYang木虫 (正式写手)
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[求助]
请问 GW 近似计算时,赝势选择有要求否?
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vasp5.2的赝势有所更新 在potpaw_LDA 中 赝势有很多种,比如Silicon就有 Si Si_d_GW Si_d_GW_nr Si_f_GW Si_sv_GW …… 很多种。 那么 GW近似计算对赝势的选取有什么要求吗? 后缀GW是什么意思? |
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liliangfang
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5楼2013-09-03 10:42:12
wuli8
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2楼2013-09-02 16:27:05
wuli8
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【答案】应助回帖
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Dear VASP users, After long and careful consideration we have decided to release a new set of POTCAR files covering the periodic table. This includes GW potentials for almost all elements. The potentials have been tested using standard DFT-"benchmark" runs (see the data_base file in the tar files). In most cases the potentials are literally identical to the previous releases, but ALL have been recalculated using a new version of the PAW generation code, to include additional information allowing for calculations with meta-GGA functionals. The present potentials can be used in VASP.4.6, but we strongly recommend to use them only in VASP.5.X, since some compatibility issues might emerge (e.g. LDA+U). Notable updates: Many of the 4d and 5d potentials have been updated to improve f-scattering properties. This decreases the lattice constants slightly for metals, and it might make a substantial difference for strongly ionic TM compounds (including oxides). As you will realize, we now have a large number of potentials for some elements. The rules which potential to use are identical to previous releases (nothing new here). Of course the GW potentials are all "new". As you will see (database) they give virtually identical results to the standard potentials, and it is safe to assume that one can use the GW potentials instead of standard LDA/GGA potential for groundstate calculations, without deteriorating the results. In fact, we believe the GW potentials are generally at least as good as the old standard potentials, but might be much better for some "groundstate" properties including EFG and NMR (well, matter of fact, these are properties related to excitations). However, the GW potentials yield much better scattering properties at high energies well above the Fermi-level (typically up to 10-20 Ry above the vacuum level). We believe that this is important for GW and RPA calculations, although firm proof is still missing. For GW calculations, we also recommend to treat as many electrons as computationally feasible as valence electrons (e.g. use Zn_sv_GW for GW, whereas the Zn or Zn_GW potentials are sufficiently accurate for groundstate calculations). The LDA and PBE sets are identical, except for the lanthanides, for which only PBE potentials are available. You will find the new potentials on the download-portal and on the vasp5 account of the ftp server. Cheers, Georg Kresse |
3楼2013-09-02 16:43:16
刘仕晨
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4楼2013-09-03 09:43:27
