Singlet quantum phases and magnetization of the frustrated spin-1/2 ladder with ferromagnetic (F) exchange in legs and alternating F-AF exchange in rungs

Abstract

The magnetization M(h) is used to identify three singlet quantum phases of the ladder with isotropic exchange interactions. The Dimer phase with frustrated F exchanges in rungs and legs has a first-order M(h) transition at 0 K from singlet to ferromagnetic at the saturation field hs. The Haldane-DAF phase with strong F exchange in rungs and net AF exchange between rungs has continuous M(h) and is adiabatically connected to the S = 1 Heisenberg AF chain. The AF phase with strong F exchange in legs and net AF exchange between legs has continuous M(h) and is adiabatically connected to the spin-1/2 J1-J2 model with J1 > 0 and J2 < 0. All three singlet phases have finite gaps to the lowest triplet state.