[Wien] Reg: How to comment on the more interstitial DOS value at the fermi level
Peram sreenivasa reddy
peramsreenivas at gmail.com
Sun Jan 11 12:18:18 CET 2015
Dear Peter Blaha Sir,
Thank you very much for your explanation.
Will it have effect on the Ground state and physical properties of the
system?.
I want to study the pressure effect (studies under compression) on my
present system.
Can i proced
On Sun, Jan 11, 2015 at 4:28 PM, Peter Blaha <pblaha at theochem.tuwien.ac.at>
wrote:
> During initialization (or later in case.outputst we list the following
> table:
>
> For instance for an Fe atom you may find values similar as (depending on
> your RMT);
>
> E-up(Ry) E-dn(Ry) Occupancy q/sphere core-state
> 1S -514.095040 -514.094275 1.00 1.00 1.0000 T
> 2S -60.041559 -59.960081 1.00 1.00 1.0000 T
> 2P* -51.735114 -51.674397 1.00 1.00 1.0000 T
> 2P -50.818454 -50.755970 2.00 2.00 1.0000 T
> 3S -6.799995 -6.610350 1.00 1.00 0.9972 T
> 3P* -4.383762 -4.196663 1.00 1.00 0.9920 F
> 3P -4.271030 -4.084851 2.00 2.00 0.9913 F
> 3D* -0.475683 -0.307332 2.00 2.00 0.8723 F
> 3D -0.464949 -0.297118 2.50 0.00 0.8819 F
> 4S -0.376342 -0.307758 1.00 0.50 0.1768 F
>
> From the q/sphere column you can see how localized a certain state is.
>
> It means for instance: If you have ONE fe-3d electron, you find a Fe-3d
> charge
> (or a corresponding DOS value at EF) of only 0.88 electrons, but 0.12 will
> be
> in the interstitial.
> However, if you have ONE 4s electron, the Fe-4s charge will be only 0.18
> e, but
> 82 e will be in the interstital.
>
> So your large interstital DOS just means that there are los of
> "delocalized electrons"
> at EF, and you have to find out (by the analysis I indicated above) to
> which electrons
> it corresponds.
>
> PS: The values above are for free neutral atoms. Unfortunately, in solids
> the wavefunctions can
> contract/expand (depends e.g on the charge state) and these ratios can
> change by some
> fraction.
>
>
>
> Am 10.01.2015 um 15:14 schrieb Peram sreenivasa reddy:
>
>> Dear Wien2k,
>>
>> I am working on the Heusler compound. My compound is like X2YZ type. In
>> the density of states (DOS) calculations i got the values as bellow at the
>> fermi level.
>>
>> for total compound (X2YZ) 30.95 (states/Ry)
>> For X 16.49 (States/Ry)
>> For Y 4.46 (States/Ry)
>> For Z 0.38 (States/Ry)
>> for interstitial 9.62 (States/Ry)
>>
>> Here my question is that the DOS value from the interstitial region is
>> more (it is more than Y and Z atoms contribution). How can i comment on
>> this value?.
>>
>> Please give suggestions..
>>
>> Thank you very much in advance.
>>
>>
>> --
>> /P.V.SREENIVASA REDDY/
>> /Research Scholar
>> Department of Physics /
>> /Indian Institute of Technology/
>> /Hyderabad/
>>
>>
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>>
> --
> -----------------------------------------
> Peter Blaha
> Inst. Materials Chemistry, TU Vienna
> Getreidemarkt 9, A-1060 Vienna, Austria
> Tel: +43-1-5880115671
> Fax: +43-1-5880115698
> email: pblaha at theochem.tuwien.ac.at
> -----------------------------------------
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--
*P.V.SREENIVASA REDDY*
*Research ScholarDepartment of Physics *
*Indian Institute of Technology*
*Hyderabad*
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