Large-Scale Numerical-Diagonalization Study of the Shastry-Sutherland Model

Abstract

The S=1/2 Heisenberg antiferromagnet on the orthogonal-dimer lattice (Shastry-Sutherland model) is studied by the Lanczos diagonalization method. The properties of this model are determined by the ratio of two interactions, namely, r=J2/J1, where J1 denotes the amplitude of spin interactions at orthogonal dimers and the interactions represented by J2 form the square lattice. We focus our attention on the edge of the phase in which the dimer state is realized as the exact ground state. Our large-scale calculations of diagonalizations treating finite-size clusters including 44 and 48 spin sites successfully detect the target edge. Our conclusion is that the ratio for the edge is r= 0.6754(2). This estimate is compared with an experimental result from electron spin resonance measurements.