Global SO(3)× SO(3)× U(1) symmetry of the Hubbard model on bipartite lattices

Abstract

It is found that for on-site interaction U≠ 0 the local SU(2)× SU(2) × U(1) gauge symmetry of the Hubbard model on a bipartite lattice with vanishing transfer integral t=0 can be lifted to a global [SU(2)× SU(2)× U(1)]/Z22=SO(3)× SO(3)× U(1) symmetry in the presence of the kinetic-energy hopping term of the Hamiltonian with t>0. The generator of the new found hidden independent charge global U(1) symmetry is one half the rotated-electron number of singly-occupied sites operator. It is confirmed elsewhere that our results have important physical consequences concerning the further understanding of the unusual properties of the hole-doped cuprates.