[Pw_forum] Fwd: Hello, why the calculated polarization through Berry Phase is so large
Nicola Marzari
marzari at MIT.EDU
Thu Feb 21 20:05:58 CET 2008
First thing to check is the polarization quantum - P is not uniquely
defined, but modulo 2e/omega R, where omega is the volume of the unit
cell, and R any direct lattice vector. See the work of David Vanderbilt
e.g. Ref 59 of http://www.physics.rutgers.edu/~dhv/pubs/pub_list.html),
or the Rev. Mod. Phys. 1994 of Raffaele Resta.
nicola
PS: I would exercise some restraint on the significant digits in celldm.
>> From: Xiaofang <lizhanfang at yahoo.com.cn>
>> Date: February 19, 2008 4:00:43 GMT+01:00
>> To: pw_forum at pwscf.org
>> Subject: [Pw_forum] Hello, why the calculated polarization through
>> Berry Phase is so large
>> Reply-To: PWSCF Forum <pw_forum at pwscf.org>
>>
>> Dear all,
>> I have calculated the polarization of KNbO3 using the Berry Phase. The
>> atomic position and lattice constants of input are all same with the
>> experimental values. The computed polarization is 1.1201929 C/m^2,but
>> the experimental polarization is about 0.37 C/m^2. I even use the
>> espressov.4.0cvs to calculate, but the result is similar. I have also
>> tried to calculate the Born effective charge using ph.x, through the
>> effective charge I get the polarization which is 0.44 C/m^2. I don’t
>> know why there is so much difference between the two kinds of method
>> and why the calculated polarization through Berry phase is so large.
>> Any suggestion is appreciated.
>> This is the Scf’s input
>> &control
>> calculation = 'scf'
>> restart_mode = 'from_scratch'
>> pseudo_dir = '/home/pseudo/'
>> outdir = '/home/tmp/'
>> /
>> &system
>> ibrav=6
>> celldm(1)=7.5532353215993782928038366689241
>> celldm(3)=1.016512384288216162121591193395
>> nat=5
>> ntyp=3
>> nbnd=20
>> ecutwfc=30.0
>> ecutrho =300.0
>> occupations = 'fixed'
>> degauss=0.00
>> /
>> &electrons
>> diagonalization ='cg'
>> conv_thr = 1e-12,
>> mixing_beta=0.3,
>> /
>> ATOMIC_SPECIES
>> K 39.0983 019-K-ca-sp-vgrp.uspp.UPF
>> Nb 92.90638 041-Nb-ca-sp-vgrp.uspp.UPF
>> O 15.9994 008-O-ca--vgrp.uspp.UPF
>> ATOMIC_POSITIONS (crystal)
>> K 0.5 0.5 0.518
>> Nb 0.000000000 0.000000000 0.0
>> O 0.500000000 0.00000000 0.04
>> O 0.00000000 0.500000000 0.04
>> O 0.00000000 0.00000000 0.544
>>
>> K_POINTS {automatic}
>> 6 6 3 1 1 1
>>
>> This is the BP’s input
>> &control
>> calculation = 'nscf'
>> pseudo_dir = '/home/pseudo/'
>> outdir = '/home/tmp/'
>> lberry = .true.
>> gdir = 3
>> nppstr = 9
>> /
>> &system
>> ibrav=6
>> celldm(1)=7.5532353215993782928038366689241
>> celldm(3)=1.016512384288216162121591193395
>> nat=5
>> ntyp=3
>> nbnd=20
>> ecutwfc=30.0
>> ecutrho =300.0
>> occupations = 'fixed'
>> degauss=0.00
>> /
>> &electrons
>> diagonalization ='cg'
>> conv_thr = 1e-5
>> mixing_beta = 0.3
>> /
>> ATOMIC_SPECIES
>> K 39.0983 019-K-ca-sp-vgrp.uspp.UPF
>> Nb 92.90638 041-Nb-ca-sp-vgrp.uspp.UPF
>> O 15.9994 008-O-ca--vgrp. uspp.UPF
>> ATOMIC_POSITIONS (crystal)
>> K 0.5 0.5 0.518
>> Nb 0.000000000 0.000000000 0.0
>> O 0.500000000 0.00000000 0.04
>> O 0.00000000 0.500000000 0.04
>> O 0.00000000 0.00000000 0.544
>>
>> K_POINTS {automatic}
>> 6 6 9 1 1 1
>>
>> Thanks in advance.
>> Zhanfang Li
>> Joint training student, Penn State University, USA
>>
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>
> ---
> Paolo Giannozzi, Dept of Physics, University of Udine
> via delle Scienze 208, 33100 Udine, Italy
> Phone +39-0432-558216, fax +39-0432-558222
>
>
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