Local classical correlations between physical electrons in the Hubbard model (2506.18709v1)

Abstract: We demonstrate that the local nonfreeness, an unbiased measure of correlation between electrons at a single lattice site, can be computed as the mutual information between local natural spin orbitals. Using this concept, we prove that local electron correlations in the Hubbard model are fully classical: in the natural basis the local reduced density matrix is separable and no quantum correlations beyond entanglement are present. Finally, we compare different theoretical descriptions of magnetic and nonmagnetic states, showing that local classical correlations are drastically influenced by nonlocal processes. Our results confirm the relation between local classical correlations within an open system and the nonlocal correlations with its quantum environment.