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From what I read, the correlation energy can be grouped as static correlation and dynamic correlation. Another way to group them is Fermi correlation and Coulomb correlation.

Is there any link between the two groupings? Someone told me static correlation is mainly Fermi correlation, and dynamic correlation is mainly Coulomb correlation, is it true? If so, what is the different part from the "main" part?

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    $\begingroup$ +10. That's a great question! Welcome to our new community and thank you for contributing here! We hope to see much more of you in the future !!! I've edited your question slightly since we have a policy to ask just one question per post. You're welcome to ask the second question as another post if you'd like! $\endgroup$ – Nike Dattani Feb 10 at 7:39
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    $\begingroup$ AFAIK, Fermi correlation is the correlation between electrons of parallel spin, and Coulomb correlation is the correlation between any two electrons (cf. the classical Coulomb repulsion). They are both parts of dynamic correlation. Static correlation is when one electron configuration (Slater determinant) is not good enough to describe the system, due to energy levels coming close together, becoming nearly degenerate. That has nothing to do with Fermi or Coulomb correlation imo. $\endgroup$ – Shoubhik R Maiti Feb 10 at 12:45
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    $\begingroup$ @ShoubhikRMaiti Fermi correlation is part of Hartree-Fock, which is said to have no dynamic correlation, so how could it be part of dynamic correlation? $\endgroup$ – Nike Dattani Feb 11 at 0:36
  • $\begingroup$ @NikeDattani You are right, sorry, I was mistaken. Fermi correlation is included in Hartree-Fock. $\endgroup$ – Shoubhik R Maiti Feb 11 at 12:24
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These two terms are quite rigorous in the way they're defined and used:

Fermi correlation: This is the correlation found in the electron exchange term in a Hartree-Fock calculation, describes the correlation between electrons with parallel spins, and prevents two parallel-spin electrons from being found at the same location.

Coulomb correlation: This is the correlation between any two electrons regardless of whether the spins are parallel or not, since any two charged particles will experience a Coulomb repulsion based on the distance between them.

These two terms are often used more loosely:

Static correlation: This is the correlation associated with a mean-field-type SCF (self-consistent-field) calculation. For example, HF-SCF or MCSCF.

Dynamic correlation: This is correlation associated with the "movement" of electrons, and is usually associated with post-SCF calculations such as configuration-interaction or coupled-cluster calculations.

It is usually said that when doing a Hartree-Fock SCF calculation, you only get static correlation, and therefore all of the Fermi correlation from the Hartree-Fock SCF is associated with static correlation.

However, if you're doing an MCSCF calculation, it is still said that you are getting static correlation, but it would seem that there is much more to this static correlation than what you would get from a Hartree-Fock SCF calculation, and the Fermi correlation would seem to constitute a much smaller percentage of the overall static correlation.

The terms "static" and "dynamic" correlation can be confusing though, because in an MCSCF calculation, for example a CASSCF calculation, you're doing FCI in the CAS at every step of the SCF, and I mentioned earlier that configuration interaction gives you dynamic correlation, but often (for example here) it is said that MCSCF does not give dynamic correlation. Furthermore, there's SCF-type methods such as pCCD (pair coupled cluster doubles), which is also known by some as AP1roG that recover a significant amount of correlation (in the case of pCCD/AP1roG, the energies obtained can match those of DOCI, or doubly-occupied configuration interaction, which is FCI but with all spatial orbitals always doubly occupied in all considered interacting configurations, to within 1 micro-hartree of the exact DOCI energy). When something like pCCD/AP1roG agrees with DOCI up to the micro-hartree digit, it must include dynamic correlation, but I'm not sure where to draw the line between static and dynamic correlation in this case because we don't have something like a Hartree-Fock reference.

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