Ground-state two-spinon bonds in the Hubbard model on a square lattice

Abstract

In this paper the spin configurations of the ground state and one- and two-electron excited states of the Hubbard model on the square lattice are studied. We profit from a general rotated-electron description, which is consistent with the model global SO(3)× SO(3)× U(1) symmetry. For rotated electrons, doubly and single occupancy are good quantum numbers for on-site repulsion U>0. The above states are within that description generated by occupancy configurations of charge c fermions and spin-singlet two-spinon s1 bond particles. Those describe the charge and spin degrees of freedom, respectively, of the rotated electrons that singly occupy sites. While the c fermions have no internal structure, that of the spin-neutral s1 bond-particle occupancy configurations is here described in terms of spinon occupancies of a well-defined effective spin lattice. In reference companion it is confirmed that our results contribute to the further understanding of the role of electronic correlations in the spin spectrum of the parent compound La2CuO4. They are also of interest for studies of ultra-cold fermionic atoms on an optical lattice.