Ground State Properties of an S=1/2 Distorted Diamond Chain

Abstract

We investigate the ground state properties of an S=1/2 distorted diamond chain described by the Hamiltonian H=J1Σ\(3-1·3 +3·3+1)+J23-2·3-1 +J3(3-2·3+3·3\ ell+2)-H Sz\ (J1,~J2,~J3≥0), which models well a trimerized S=1/2 spin chain system Cu3Cl6(H2O)2·2H8C4SO2. Using an exact diagonalization method by means of the Lancz\"os technique, we determine the ground state phase diagram in the H=0 case, composed of the dimerized, spin fluid, and ferrimagnetic phases. Performing a degenerate perturbation calculation, we analyze the phase boundary line between the latter two phases in the J2,~J31 limit, the result of which is in good agreement with the numerical result. We calculate, by the use of the density matrix renormalization group method, the ground state magnetization curve for the case (a) where J1=1.0, J2=0.8, and J3=0.5, and the case (b) where J1=1.0, J2=0.8, and J3=0.3. We find that in the case (b) the 2/3-plateau appears in addition to the 1/3-plateau which also appears in the case (a). The translational symmetry of the Hamiltonian H is spontaneously broken in the 2/3-plateau state as well as in the dimerized state.

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