Ground state of an S=1/2 distorted diamond chain - model of Cu3 Cl6 (H2 O)2 · 2H8 C4 SO2

Abstract

We study the ground state of the model Hamiltonian of the trimerized S=1/2 quantum Heisenberg chain Cu3 Cl6 (H2 O)2 · 2H8 C4 SO2 in which the non-magnetic ground state is observed recently. This model consists of stacked trimers and has three kinds of coupling constants between spins; the intra-trimer coupling constant J1 and the inter-trimer coupling constants J2 and J3. All of these constants are assumed to be antiferromagnetic. By use of the analytical method and physical considerations, we show that there are three phases on the J2 - J3 plane ( J2 J2/J1, J3 J3/J1), the dimer phase, the spin fluid phase and the ferrimagnetic phase. The dimer phase is caused by the frustration effect. In the dimer phase, there exists the excitation gap between the two-fold degenerate ground state and the first excited state, which explains the non-magnetic ground state observed in Cu3 Cl6 (H2 O)2 · 2H8 C4 SO2. We also obtain the phase diagram on the J2 - J3 plane from the numerical diagonalization data for finite systems by use of the Lanczos algorithm.

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