[Pw_forum] the problem of scf convergence
Eyvaz Isaev
eyvaz_isaev at yahoo.com
Sat Sep 15 14:11:41 CEST 2007
Hi,
Axel just suggested using a "non-ak", i.e. not
generated by Axel Kohlmeyer, pseudopotential.
It was quite interesting to test my own
pseudopotential for Li which gave a=4.64Ang (Exp.
4.60Ang), and B=83GPa (Exp. 81GPa) for Li20. Phonons
at Gamma point look good (without splitting of the
T_1u mode): T_1u - 431cm^-1, and T_2g - 524cm^-1.
Bests,
Eyvaz.
--- hyello25 Qgrui <hyello25 at gmail.com> wrote:
> hi,
> I performed other USPPs tests (blyp-van_ak,
> pw91-van_ak, pz-van_ak) and
> found that all these calculations with USPPs were
> not convergence both in
> press and Etot.For example, with blyp-van_ak( result
> is at the bottom of the
> mail).All these USPPs are downloaded from the
> homepage of
> PWSCF/pseudopotential.
> However, this unconvergence situation disappeared
> with NCPP (PBE-TM-GGA,
> converted from fhi format PP using fhi2upf code).
> The result is at the
> bottom as well.
> As Axel Kohlmeyer mentioned:
> "please try a different Li pseudopotential (i.e. a
> non-ak one).
> the one you are using seems to have some not yet
> understood
> problems for higher-order properties: lattice
> constant from
> EOS fit, MD and geometry optimizations were fine,
> phonons
> were bad."
> And can anyone tell me what does the 'ak'(in
> blyp-van_ak) mean? What kind
> of systems are these 'ak' USPPs suitable for
> calculation?
>
> WITH blyp-van_ak
>
USPP:------------------------------------------------------
> ---! convergence scf caculation for Li2O
> !---
> ecutwfc = 100 Ry, ecutrho = 320 Ry :
> ! total energy = -61.82021122 Ry
> total stress (Ry/bohr**3)
> (kbar) P=
> 19.03
> ecutwfc = 100 Ry, ecutrho = 360 Ry :
> ! total energy = -61.82317722 Ry
> total stress (Ry/bohr**3)
> (kbar) P= -
> 6.75
> ecutwfc = 100 Ry, ecutrho = 400 Ry :
> ! total energy = -61.82694596 Ry
> total stress (Ry/bohr**3)
> (kbar) P=
> 4.67
> ecutwfc = 100 Ry, ecutrho = 600 Ry :
> ! total energy = -61.82089409 Ry
> total stress (Ry/bohr**3)
> (kbar) P=
> 4.29
> ecutwfc = 100 Ry, ecutrho = 800 Ry :
> ! total energy = -61.81983678 Ry
> total stress (Ry/bohr**3)
> (kbar) P=
> 19.40
> ecutwfc = 100 Ry, ecutrho = 1000 Ry :
> ! total energy = -61.82031614 Ry
> total stress (Ry/bohr**3)
> (kbar) P=
> 22.33
> ecutwfc = 200 Ry, ecutrho = 800 Ry :
> ! total energy = -61.82432402 Ry
> total stress (Ry/bohr**3)
> (kbar) P=
> 9.13
> ecutwfc = 200 Ry, ecutrho = 1000 Ry :
> ! total energy = -61.82480674 Ry
> total stress (Ry/bohr**3)
> (kbar) P=
> 12.09
> ecutwfc = 200 Ry, ecutrho = 1600 Ry :
> ! total energy = -61.82437317 Ry
> total stress (Ry/bohr**3)
> (kbar) P=
> 6.83
> ecutwfc = 200 Ry, ecutrho = 1800 Ry :
> ! total energy = -61.82423710 Ry
> total stress (Ry/bohr**3)
> (kbar) P=
> 5.72
>
-------------------------------------------------------------------------------
>
> WITH PBE-MT-GGA
>
NCPP:-----------------------------------------------------------
> ---! convergence scf caculation for Li2O
> !---
> ecutwfc = ecut = 50 Ry :
> ! total energy = -33.53719310 Ry
> total stress (Ry/bohr**3)
> (kbar) P= -
> 329.31
> ecutwfc = ecut = 80 Ry :
> ! total energy = -33.60362083 Ry
> total stress (Ry/bohr**3)
> (kbar) P= -
> 46.81
> ecutwfc = ecut = 100 Ry :
> ! total energy = -33.60420031 Ry
> total stress (Ry/bohr**3)
> (kbar) P= -
> 48.44
> ecutwfc = ecut = 140 Ry :
> ! total energy = -33.60518304 Ry
> total stress (Ry/bohr**3)
> (kbar) P= -
> 46.36
> ecutwfc = ecut = 180 Ry :
> ! total energy = -33.60525632 Ry
> total stress (Ry/bohr**3)
> (kbar) P= -
> 45.97
> ecutwfc = ecut = 200 Ry :
> ! total energy = -33.60552604 Ry
> total stress (Ry/bohr**3)
> (kbar) P= -
> 46.30
> ecutwfc = ecut = 240 Ry :
> ! total energy = -33.60553853 Ry
> total stress (Ry/bohr**3)
> (kbar) P= -
> 46.24
> ecutwfc = ecut = 280 Ry :
> ! total energy = -33.60553917 Ry
> total stress (Ry/bohr**3)
> (kbar) P= -
> 46.23
> ecutwfc = ecut = 300 Ry :
> ! total energy = -33.60553970 Ry
> total stress (Ry/bohr**3)
> (kbar) P= -
> 46.24
> ecutwfc = ecut = 340 Ry :
> ! total energy = -33.60553987 Ry
> total stress (Ry/bohr**3)
> (kbar) P= -
> 46.23
> ecutwfc = ecut = 400 Ry :
> ! total energy = -33.60554013 Ry
> total stress (Ry/bohr**3)
> (kbar) P= -
> 46.23
>
---------------------------------------------------------------------------------
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>
-------------------------------------------------------------------
Prof. Eyvaz Isaev,
Theoretical Physics Department, Moscow State Institute of Steel & Alloys, Russia, and
Condensed Matter Theory Group, Uppsala University, Sweden Eyvaz.Isaev at fysik.uu.se, eyvaz_isaev at yahoo.com
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