Symmetry Studies of Antiferromagnetic Heisenberg Model

Abstract

A general treatment of the symmetry for quantum spin systems is presented with the use of permutational operators. Symmetry operations which are commutable with a Hamiltonian form the symmetry group. Complete sets of spin functions which are specified by the total spin ( S _tot ) are projected onto the irreducible representations of the symmetry group, using the character table. We show from symmetry consideration that a minimum dimension exists for the ground state of the Heisenberg Hamiltonian with finite N spins. The diagonalization of the Hamiltonian with the use of symmetry consideration can be effectively performed for the complete sets of S _tot =0 by the method proposed in this paper. Numerical results of the ground state and all the excited states of S _tot =0 are presented for spin systems up to N =20.