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#1 2025-04-07 20:12:20
- pathirage
- Member
- Registered: 2025-02-02
- Posts: 5
Electric field gradient
Hi,
I'm currently trying to calculate the electric field gradient (EFG) for the atom.
Below is the first part of my input.
>>export MOLCAS_MEM=64Gb
&SEWARD &END
CHOLESKY
FLDG
0
COORD
$Project.xyz
BASIS
Th.ANO-RCC-VTZP, F.ANO-XS-VDZP, Ca.ANO-XS-VDZ
GROUP
C1I have used FLDG=0 in the gateway. And below is the part of the output for the first atom.
Electric field gradient:
(2*XX-YY-ZZ)/2 1.5*XY 1.5*XZ (2*YY-ZZ-XX)/2 1.5*YZ (2*ZZ-XX-YY)/2
RR=XX+YY+ZZ
1 -0.7046 0.0001 0.3512 1.3697 0.0000 -0.6651
-272494316.8933My questions are:
Is this the correct method to calculate EFG? Please let me know if not. (Note: I do not want to apply any external field.)
Do we need to diagonalize the matrix to obtain Vzz, Vxx, and Vyy? (according to above output what is Vzz?)
Also, can I know whether embedding or without embedding is good to calculate EFG? I obtained two different results, possibly due to the presence of external atoms.
I would really appreciate your guidance on this aspect of the EFG.
Thank you in advance.
Last edited by pathirage (2025-04-14 04:30:38)
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