Studies on a frustrated Heisenberg spin chain with alternating ferromagnetic and antiferromagnetic exchanges

Abstract

We study Heisenberg spin-1/2 and spin-1 chains with alternating ferromagnetic (J1F) and antiferromagnetic (J1A) nearest-neighbor interactions and a ferromagnetic next-nearest-neighbor interaction (J2F). In this model frustration is present due to the non-zero J2F. The model with site spin s behaves like a Haldane spin chain with site spin 2s in the limit of vanishing J2F and large J1F/J1A. We show that the exact ground state of the model can be found along a line in the parameter space. For fixed J1F, the phase diagram in the space of J1A-J2F is determined using numerical techniques complemented by analytical calculations. A number of quantities, including the structure factor, energy gap, entanglement entropy and zero temperature magnetization, are studied to understand the complete phase diagram. An interesting and potentially important feature of this model is that it can exhibit a macroscopic magnetization jump in the presence of a magnetic field; we study this using an effective Hamiltonian.