Real space renormalization group approach to the 2d antiferromagnetic Heisenberg model

Abstract

The low energy behaviour of the 2d antiferromagnetic Heisenberg model is studied in the sector with total spins S=0,1,2 by means of a renormalization group procedure, which generates a recursion formula for the interaction matrix S(n+1) of 4 neighbouring "n clusters" of size 2n× 2n, n=1,2,3,... from the corresponding quantities S(n). Conservation of total spin S is implemented explicitly and plays an important role. It is shown, how the ground state energies ES(n+1), S=0,1,2 approach each other for increasing n, i.e. system size. The most relevant couplings in the interaction matrices are generated by the transitions <S',m';n+1|Sq*|S,m;n+1> between the ground states |S,m;n+1> (m=-S,...,S) on an (n+1)-cluster of size 2n+1× 2n+1, mediated by the staggered spin operator Sq*