Dear Gerhard,
Thank your for detailed answer.
If I understand it correctly the SOC part is introduced to the
hamiltonian as
<phi|\zeta (\sigma l)|phi> (1)
following the expression for wave function phi (2.4 in the manual)
|phi_k(r)> = \sum_{L} [A_{L, k}u_L(r) + B_{L, k}{\dot u_L(r)}] Y_L
the expression (1) is naturally calculated as sum of four contributions
and the first one has
\int dr u_L(r) \zeta u_L'(r). Again if I understand it correctly this
integral is calculated in the code and it's the value I'm interested in.
Best,
German
Dr. German D Samolyuk
Materials Theory Group
Materials Science & Technology Division
Oak Ridge National Laboratory
Post Office Box 2008
Oak Ridge, TN 37831-6138
(865) 241-5394
(865) 241-3650 (FAX)
------------------------------------------------------------------------
*From:* Wien <wien-boun...@zeus.theochem.tuwien.ac.at> on behalf of
Fecher, Gerhard <fec...@uni-mainz.de>
*Sent:* Friday, August 18, 2023 4:13 AM
*To:* A Mailing list for WIEN2k users <wien@zeus.theochem.tuwien.ac.at>
*Subject:* [EXTERNAL] Re: [Wien] SOC value \zeta
Dear German,
as mentioned by Peter
https://urldefense.us/v2/url?u=https-3A__www.mail-2Darchive.com_wien-40zeus.theochem.tuwien.ac.at_msg09672.html&d=DwIGaQ&c=v4IIwRuZAmwupIjowmMWUmLasxPEgYsgNI-O7C4ViYc&r=lTD7jQRfMViWEsN8TZ1wLmkMhVe4MCRH76GADmGBpD4&m=OsbEKiRMVyoB6JJ9cR0TBU0G3VtOXEqJhXaWmGQ8ribakT8R1LoQvMUNDI4mByuR&s=UIakgS3uhi68CwcKv4g46tpXC0-ZvZ8f_A2rVPjmMdM&e=
<https://urldefense.us/v2/url?u=https-3A__www.mail-2Darchive.com_wien-40zeus.theochem.tuwien.ac.at_msg09672.html&d=DwIGaQ&c=v4IIwRuZAmwupIjowmMWUmLasxPEgYsgNI-O7C4ViYc&r=lTD7jQRfMViWEsN8TZ1wLmkMhVe4MCRH76GADmGBpD4&m=OsbEKiRMVyoB6JJ9cR0TBU0G3VtOXEqJhXaWmGQ8ribakT8R1LoQvMUNDI4mByuR&s=UIakgS3uhi68CwcKv4g46tpXC0-ZvZ8f_A2rVPjmMdM&e=>
one may use the potential to estimate the spin-orbit coupling strength.
That is one may find the average of 1/r dV/dr by integration over space,
taking care that the potential is not spherical (as in a free atom) and
thus depends not just on r but also on theta and phi.
(potential files from lapw0: spherical part: case.vsp and non-spherical
part: case.vns., check the mesh and if they contain V or r*V !)
- Care has to be taken on the singularity at the nucleus (r=0) as
mentioned previously, check r_0 !
- But which space do you take for the integration in case you have
different atoms ?
the muffin tin spheres or some Bader basins ?
This is also the problem when 'estimating' so called site specific
magnetic moments,
the 'size' of the individual atoms in compounds is not known a priori !
To calculate <Psi| H | Psi> you have to understand the wave functions in
FPLAPW
as mentioned by Peter in
https://urldefense.us/v2/url?u=https-3A__www.mail-2Darchive.com_wien-40zeus.theochem.tuwien.ac.at_msg22739.html&d=DwIGaQ&c=v4IIwRuZAmwupIjowmMWUmLasxPEgYsgNI-O7C4ViYc&r=lTD7jQRfMViWEsN8TZ1wLmkMhVe4MCRH76GADmGBpD4&m=OsbEKiRMVyoB6JJ9cR0TBU0G3VtOXEqJhXaWmGQ8ribakT8R1LoQvMUNDI4mByuR&s=wUyUKaXnqM6OAq2CDj8BVF5eGvoneLd5IH_t4pv1N_E&e=
<https://urldefense.us/v2/url?u=https-3A__www.mail-2Darchive.com_wien-40zeus.theochem.tuwien.ac.at_msg22739.html&d=DwIGaQ&c=v4IIwRuZAmwupIjowmMWUmLasxPEgYsgNI-O7C4ViYc&r=lTD7jQRfMViWEsN8TZ1wLmkMhVe4MCRH76GADmGBpD4&m=OsbEKiRMVyoB6JJ9cR0TBU0G3VtOXEqJhXaWmGQ8ribakT8R1LoQvMUNDI4mByuR&s=wUyUKaXnqM6OAq2CDj8BVF5eGvoneLd5IH_t4pv1N_E&e=>
Note that the wave functions (of the valence electrons) are k-dependent
This you see from the spin orbit splitting of the bands that depends on
the direction in k-space.
Maybe you also think too much in atomic physics, where the spin orbit
splitting does not depend k or any direction.
Ciao
Gerhard
DEEP THOUGHT in D. Adams; Hitchhikers Guide to the Galaxy:
"I think the problem, to be quite honest with you,
is that you have never actually known what the question is."
====================================
Dr. Gerhard H. Fecher
Institut of Physics
Johannes Gutenberg - University
55099 Mainz
________________________________________
Von: Wien [wien-boun...@zeus.theochem.tuwien.ac.at] im Auftrag von
Samolyuk, German D. via Wien [wien@zeus.theochem.tuwien.ac.at]
Gesendet: Donnerstag, 17. August 2023 17:43
An: A Mailing list for WIEN2k users
Cc: Samolyuk, German D.
Betreff: Re: [Wien] SOC value \zeta
Gerhard,
I wanted to know <fi_l|1/r dV/dr|fi_l>, i.e. part added to the
hamiltonian resulting in eigenvalues and eigenvectors in case of added
SOC and calculated using basis of wf obtained in no SOC case. The
<(\sigma * l)> part I can calculate from density matrix output.
Gavin,
Thank you, the references help, but I'd rather don't hack the code 🙂.
Thank you,
German
Dr. German D Samolyuk
Materials Theory Group
Materials Science & Technology Division
Oak Ridge National Laboratory
Post Office Box 2008
Oak Ridge, TN 37831-6138
(865) 241-5394
(865) 241-3650 (FAX)
________________________________
From: Wien <wien-boun...@zeus.theochem.tuwien.ac.at> on behalf of
Fecher, Gerhard <fec...@uni-mainz.de>
Sent: Thursday, August 17, 2023 2:23 AM
To: A Mailing list for WIEN2k users <wien@zeus.theochem.tuwien.ac.at>
Subject: [EXTERNAL] Re: [Wien] SOC value \zeta
I don't understand the question,
what do you like to know, \zeta (proportional to 1/r dV/dr) for each
atom or the orbital moment (m_l) for each atom ?
The r dependence tells you already that there is no single value for
'zeta = zeta(r)'
SO is calculated directly from dV/dr which is not printed somewhere,
however for a pure Coulomb potential (Z/r) it depends on the ordinal
number Z of the atom,
This explains why the spin orbit interaction is stronger for 'heavier'
atoms.
|1/r dV/dr| becomes large in the vicinity of the nucleus (infinity at
r=0) for all atoms.
This explains why the spin-orbit splitting is large for core level (the
larger the closer they are (in average) to the nucleus) and small for
semi-core or valence level, as these electrons are in average farer away
from the nucleus.
Check the manual how to have the orbital moments printed.
Ciao
Gerhard
DEEP THOUGHT in D. Adams; Hitchhikers Guide to the Galaxy:
"I think the problem, to be quite honest with you,
is that you have never actually known what the question is."
====================================
Dr. Gerhard H. Fecher
Institut of Physics
Johannes Gutenberg - University
55099 Mainz
________________________________________
Von: Wien [wien-boun...@zeus.theochem.tuwien.ac.at] im Auftrag von
Samolyuk, German D. via Wien [wien@zeus.theochem.tuwien.ac.at]
Gesendet: Mittwoch, 16. August 2023 23:20
An: wien@zeus.theochem.tuwien.ac.at
Cc: Samolyuk, German D.
Betreff: [Wien] SOC value \zeta
Dear colleagues,
I'm running wien2k version WIEN2K_19_LI on linux cluster. The goal is to
analyze magnetic anisotropy energy in YCo_5 intermetallic.
As it was explained in few presentation discussing SOC implementation in
wien2K it's added in following form
\zeta ({\vec \sigma}{\vec l}), where \zeta = 1/(2Mc^2) 1/r^2 dV/dr.
Question: is it possible to output value \zeta for each atom, orbital
moment?
I cant find it in output files and was not able to find following
discussion in archive.
Thank you,
German
Dr. German D Samolyuk
Materials Theory Group
Materials Science & Technology Division
Oak Ridge National Laboratory
Post Office Box 2008
Oak Ridge, TN 37831-6138
(865) 241-5394
(865) 241-3650 (FAX)
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