[Pw_forum] Calculational equation of PDOS

Gabriele Sclauzero sclauzer at sissa.it
Fri Apr 1 10:04:49 CEST 2011


Il giorno 01/apr/2011, alle ore 07.09, xirainbow ha scritto:

> Dear Professor 

Thanks for upgrading my position :D

> Gabriele Sclauzero:
> Thank you for your prompt help.
> I read your thesis and benefit a lot from it:)

I'm glad of that, at least all the efforts I put in writing it could be useful to someone (thanks also to those who corrected the manuscript...)


Cheers,


GS

> Thanks again:P
> 
> 
> On Thu, Mar 31, 2011 at 7:58 PM, Gabriele Sclauzero <sclauzer at sissa.it> wrote:
> Dear Wang,
> 
>     I remember that I put down a formula for that in my PhD thesis (http://www.sissa.it/cm/thesis/2010/SclauzeroG_PhDthesis.pdf), if this may help you (see eq. 2.74 at page 58). I'm sure you could find it in many other places, though.
> 
>    I believe there's no such thing as the Rcut you write in your formula below. As you say, the atomic wavefunctions are built from the radial part R_nl(r), which is taken from the pseudopotential file, and the spherical harmonics. However you should not forget that there is also structure factor which comes from the translation of the nucleus from the origin.
> The integral is done in reciprocal space for each k-point, hence a k-dependence is added to the atomic wavefunction when transforming it to the G-basis (have a look in PW/atomic_wfc.f90).
> 
> The following paper might also be useful to you:
> 
> Solid State Communications, Vol. 95, No. 10, pp. 685-690, 1995
> 
> 
> 
> 
> HTH
> 
> GS
> 
> Il giorno 31/mar/2011, alle ore 12.27, xirainbow ha scritto:
> 
>> Dear all:
>>           I want to know the calculational equation of partial density of state(PDOS) in QE.
>>           I could not find the equation on any paper. I think it may be:
>> \int_0^{Rcut}  \Psi(\vec r)*R_n(r)*Y_{lm}(\theta,\phi)*r^2 dr d\theta d\phi.
>> where the Psi(\vec r) is the KS wave function of solid. Y_{lm}(\theta,\phi) is the spherical harmonics. R_n(r) is the the radial wave function of a isolated atom.
>>    If I was right, what is the formation of R_n(r)?
>> 
>> Thanks in advance:)
>> 
>> -- 
>> ____________________________________
>> Hui Wang
>> School of physics, Fudan University, Shanghai, China
>> _______________________________________________
>> Pw_forum mailing list
>> Pw_forum at pwscf.org
>> http://www.democritos.it/mailman/listinfo/pw_forum
> 
> 
> § Gabriele Sclauzero, EPFL SB ITP CSEA
>    PH H2 462, Station 3, CH-1015 Lausanne
> 
> 
> _______________________________________________
> Pw_forum mailing list
> Pw_forum at pwscf.org
> http://www.democritos.it/mailman/listinfo/pw_forum
> 
> 
> 
> 
> -- 
> ____________________________________
> Hui Wang
> School of physics, Fudan University, Shanghai, China
> _______________________________________________
> Pw_forum mailing list
> Pw_forum at pwscf.org
> http://www.democritos.it/mailman/listinfo/pw_forum


§ Gabriele Sclauzero, EPFL SB ITP CSEA
   PH H2 462, Station 3, CH-1015 Lausanne

-------------- next part --------------
An HTML attachment was scrubbed...
URL: <http://lists.quantum-espresso.org/pipermail/users/attachments/20110401/66a85f70/attachment.html>


More information about the users mailing list