[Pw_forum] Hi, how to generate the pseudopotentials of I element?
Axel Kohlmeyer
akohlmey at cmm.chem.upenn.edu
Wed Jan 24 04:34:00 CET 2007
On Wed, 24 Jan 2007, yupiaofei(SDU) wrote:
YP> for example, i want to generate the pseudopotentials of I elements? What should i do?
YP>
YP> This is USPP of I used in CASTEP. Can we obtain some help from these datas?
those are parameters for a vanderbilt uspp. it should be rather
straightforward to recreate the potential with the vanderbilt
code and then convert them to UPF with uspp2upf.x.
regardless of how well the reproduction of those parameters work,
i would recommend to do careful transferability tests.
axel.
YP>
YP> Ultrasoft potential generated using the setting
YP> suggested by Prof. Lee group (I_sml_01).
YP>
YP> ============================================================
YP> | pseudopotential report: version 7.2.1 date 6-11-1998 |
YP> ------------------------------------------------------------
YP> | I ceperley-alder exchange-corr |
YP> | z = 53. zv = 7. exfact = .00000 |
YP> | etot = -23.02217 |
YP> | index orbital occupation energy |
YP> | 1 500 2.00 -1.30 |
YP> | 2 510 5.00 -.53 |
YP> | keyps = 3 ifpcor = 0 |
YP> | rinner = 1.60 for L= 1 |
YP> | rinner = 1.60 for L= 2 |
YP> | rinner = 1.60 for L= 3 |
YP> | new generation scheme: |
YP> | nbeta = 4 kkbeta = 645 rcloc = 2.0000 |
YP> | ibeta l epsilon rcut |
YP> | 1 0 -1.30 2.00 |
YP> | 2 0 .00 2.00 |
YP> | 3 1 -.53 2.00 |
YP> | 4 1 .00 2.00 |
YP> | lloc = 2 eloc = .000 |
YP> | ifqopt = 3 nqf = 8 qtryc = 10.000 |
YP> | all electron calculation used koelling-harmon equation |
YP> | ************logarithmic mesh************ |
YP> ============================================================
YP>
YP> Convergence test
YP> ----------------
YP> I2 dimer, orthorombic cell, a=6.05, b=5.95, c=6.00 Angstrom, LDA
YP> Fractional coordinates:
YP> (0.71102 0.72156 0.71658) and (0.44630 0.45485 0.44986)
YP>
YP> =============================================================
YP> Ecut Etot dE Force on atom 1
YP> (eV) (eV) (eV/atom) (eV/A)
YP> -------------------------------------------------------------
YP> 150 (COARSE) -628.946 0.225 -0.82947 -0.98877 -0.42398
YP> 175 (MEDIUM) -628.985 0.206 -0.69620 -0.68307 -0.60302
YP> 200 -629.167 0.115 -0.72123 -0.71046 -0.62692
YP> 210 (FINE) -629.231 0.083 -1.11127 -0.71342 -0.63400
YP> 230 -629.325 0.036 -0.92169 -0.94618 -1.05568
YP> 240 (PRECISE) -629.348 0.024 -0.95878 -0.89582 -0.93315
YP> 280 -629.376 0.010 -0.95180 -0.90413 -0.92772
YP> 320 -629.383 0.006 -0.95300 -0.90585 -0.92960
YP> 400 -629.395 0.001 -0.96039 -0.92010 -0.95487
YP> 450 -629.395 0.000 -0.96071 -0.92041 -0.95521
YP> 800 -629.396 -0.94534 -0.90747 -0.92607
YP> =============================================================
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YP>
--
=======================================================================
Axel Kohlmeyer akohlmey at cmm.chem.upenn.edu http://www.cmm.upenn.edu
Center for Molecular Modeling -- University of Pennsylvania
Department of Chemistry, 231 S.34th Street, Philadelphia, PA 19104-6323
tel: 1-215-898-1582, fax: 1-215-573-6233, office-tel: 1-215-898-5425
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If you make something idiot-proof, the universe creates a better idiot.
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