Symmetries in the Hubbard model with n-fold orbital degeneracy

The present paper studies the symmetries of the Hubbard model of electrons with generally n-fold orbital degeneracy. It is shown that SUd(2n) and SUc( 2n) symmetries hold, respectively, for the model with completely repulsive or attractive on-site interaction and that with partly attractive interacti ons. An extended Lieb-Mattis transformation is given to map these two symme tries into each other. The subsymmetry SUd(e)(n)xSU(d)((o))(n) is found to be shared by the two models with arbitrary chemical potential mu. By assumi ng at most two electrons on each site it is found that SUd(2n)(P) and SUc(2 n)(P) both exist in each kind of the two models and consequently lead to a larger symmetry SUd(2n)(P) x SUc(2n)(P). Another underlying symmetry (SUc(e )(2)(P)x...x SUc(e)(2)(P))x(SUc(o)(2)(P)x...xSU(c)((o))(2)(P)) is also reve aled for the unified U model under the excluding. The symmetry is valid for the partially attractive model with chemical potential mu=-U. (C) 2001 Ame rican Institute of Physics.