Author Topic: Broadening technique (Read 4776 times)

Cyrille · « **on:** August 17, 2015, 16:14 »

Hello

I have a question regarding the broadening technique in a standard scf calculation within ATK.
From the vnl interface it seems that I have only access to Fermi-Dirac broadening.
Is it possible to use Marzari-Vanderbilt or Methfessel-Paxton broadening as well?

thanks in advance

Cyrille

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Cyrille Barreteau
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Jess Wellendorff · « **Reply #1 on:** August 17, 2015, 22:11 »

Hi Cyrille,
FD broadening is the only option with ATK. Is there a particular reason you would prefer MV or MP broadening instead?

Anders Blom · « **Reply #2 on:** August 17, 2015, 23:29 »

We'll probably add the other options to ATK 2016, for bulk materials. But the question is interesting - are they really much better? What is your experience, Cyrille?

Cyrille · « **Reply #3 on:** August 18, 2015, 10:52 »

Hi Anders

Thanks for your answer.
I would say it is mainly for convergence (and total energies) issues. With MV and MP it is possible to use larger broadening (temperature T) than Fermi Dirac (FD) while keeping a good estimate of the total energy. Indeed if you plot E(T) it is very flat over a very large range for MV and MP while it increases rapidly with FD. This usually facilitates the convergence keeping a behaviour similar to T=0..

Cyrille

Jess Wellendorff · « **Reply #4 on:** August 18, 2015, 11:18 »

Great, thanks for the input! We will keep this in mind for a future release of ATK.

asanchez · « **Reply #5 on:** August 18, 2015, 22:35 »

Nicola Marzari's PhD thesis has some interesting information regarding this whole issue if anyone's interested;

http://theossrv1.epfl.ch/Main/Theses

Jess Wellendorff · « **Reply #6 on:** August 19, 2015, 08:40 »

Thanks very much for the reference. Yes, I am aware that the PWscf code offers several different options for electron occupation smearing, and that there may be good reasons to prefer the cold smearing scheme. Very interesting.

Cyrille · « **Reply #7 on:** August 19, 2015, 09:20 »

MP and MV have rather similar behaviours. The only problem with MP is that you can sometimes get negative charges which is not the case of MV.
Another very interesting discussion (with many additional references) on the same website:
http://theossrv1.epfl.ch/Main/ElectronicTemperature

Cyrille

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Author Topic: Broadening technique (Read 4776 times)

Cyrille

Broadening technique

Jess Wellendorff

Re: Broadening technique

Anders Blom

Re: Broadening technique

Cyrille

Re: Broadening technique

Jess Wellendorff

Re: Broadening technique

asanchez

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Jess Wellendorff

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Cyrille

Re: Broadening technique