[Pw_forum] magnetic anisotropy calculation using fully-relativistic PPs
peter
petercybertron at gmail.com
Sat Sep 12 21:41:07 CEST 2015
Hi Cyrille,
Thank you for your suggestion, I will try that.
Since I want to calculate the magnetocrystalline anisotropy, I want to
make sure that putting constraints on the "total direction" is the
correct way to do it:
For magnetic moments in the x-y plane, I am using:
constrained_magnetization = 'total direction'
fixed_magnetization(3) = 90.0 ! 0.0 for magnetic moment in the
z-direction
best,
Yun-Peng
On 09/12/2015 03:30 PM, BARRETEAU Cyrille wrote:
> Dear Yun-Peng,
>
> >From experience I can just say that calculation using
> fully-relativistic PP can be really difficult to converge and
> sometimes almost impossible to achieve the desired accuracy
> (especially since magneto-crystalline anisotropy requires very strict
> convergence thresholds). You can play with broadening and k points
> sampling.
>
> Cyrille
>
>
> ========================
> *Cyrille Barreteau*
> CEA Saclay, IRAMIS, SPECBat. 771
> 91191 Gif sur Yvette Cedex, FRANCE
> ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
> DTU Nanotech
> Ørsteds Plads, building 345E
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> ~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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> email: cyrille.barreteau at cea.fr /cyrbar at nanotech.dtu.dk
> Web: http://iramis.cea.fr/Pisp/cyrille.barreteau/
> ========================
> ------------------------------------------------------------------------
> *De :* pw_forum-bounces at pwscf.org [pw_forum-bounces at pwscf.org] de la
> part de yuewen.fang [yuewen.fang at gmail.com]
> *Envoyé :* samedi 12 septembre 2015 20:42
> *À :* pw_forum
> *Objet :* Re: [Pw_forum] magnetic anisotropy calculation using
> fully-relativistic PPs
>
> Hi, Yun-Peng,
>
> Thanks for your feedback. It depends on the matter which you are
> interested in. I think this paper (Phys. Rev. B 86, 085135 (2012))
> can help you.
>
> Bests
> Fang
>
> ------------------------------------------------------------------------
>
> Yue-Wen FANG, PhD candidate
>
> East China Normal University <http://english.ecnu.edu.cn/>
>
>
> < peter <mailto:petercybertron at gmail.com>> 2015-09-13 02:16:28 wrote:
>
> Thank you for your suggestions!
> I tried using a small mixing beta (0.1~0.2), and tried using
> reasonable cutoff energies (ecutwfc=50, ecutrho=500), now the
> convergence is much better than before (converged down to 10^-6 Ry).
> Another question is, I can find ultra-soft and PAW
> pseudopotentials, which one is better for spin-orbit calculations?
> I am using PBE XC functional.
>
> best,
> Yun-Peng
>
> On 09/11/2015 08:08 PM, yuewen.fang wrote:
>> Dear Yun-Peng,
>>
>> Plz try to decrease mixing and perform some convergence tests for
>> your cutoff energy to remove the oscillation of the energy! In
>> addition, this oscillation could also be caused by the
>> unreasonable smearing methods for metals.
>>
>> Bests
>> Fang
>>
>> ------------------------------------------------------------------------
>> Sent from YoMail <http://www.yomail.com/?utm_source=signature>
>>
>> < Peter Cybertron <mailto:petercybertron at gmail.com>> 2015-09-12
>> 03:10:31 wrote:
>>
>> Hi,
>>
>>
>> I am working in University of Florida as a postdoc.
>> I am exploring the spin-orbital calculations using pwscf, and I
>> encounter a very slow convergence like this:
>> > grep estimated scf.out
>> estimated scf accuracy < 0.00000004 Ry
>> ... (100 similar lines)
>> estimated scf accuracy < 0.00000003 Ry
>> > grep "total energy" scf.out
>> ...
>> total energy = -3667.91077719 Ry
>> total energy = -3667.91078176 Ry
>> total energy = -3667.91077642 Ry
>> total energy = -3667.91078300 Ry
>>
>>
>> Although the convergence of total energy seems OK (down to
>> 0.00001 Ry ~
>> 0.0001 eV = 0.1 meV), I still feel uncomfortable since I
>> never encounter
>> such a problem without spin-orbit interactions.
>>
>>
>> I downloaded the ultrasoft and PAW pseudopotentials from
>> PSLib and I am
>> using the PBE flavor of XC functional. The system I am
>> studying is a two
>> dimensional magnetic insulator.
>>
>>
>> The parameters I am using are:
>> constrained_magnetization = 'total direction'
>> fixed_magnetization(3) = 0.0
>> lambda = 0.2
>> ecutwfc = 30.0 ,
>> ecutrho = 300.0 ,
>> occupations = 'smearing' ,
>> degauss = 0.005,
>> smearing = 'mv' ,
>> nosym=.true.
>> mixing_mode = 'local-TF' ,
>> mixing_beta = 0.9 ,
>> diagonalization = 'david' ,
>>
>>
>> Which parameter on earth keep my calculations non-converged?
>>
>>
>> Best,
>> Yun-Peng
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>>
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