Quantum Potts chain in alternating field

Abstract

The q-state Potts chain with ferromagnetic couplings, J=1, in the presence of a transverse field, , has a quantum phase transition at /q=1, which is continuous for q 4 and of first order for q>4. Here we introduce a q-periodic alternating longitudinal field of strength, h, and study the phase diagram and the critical properties of the model. For h<q/(q-1) there is a ferromagnetic ordered phase, for <c(h) and at h=q/(q-1) there is a classical endpoint at =0, with finite entropy at T=0. We considered the q=3 model and using DMRG techniques we calculated the low-laying spectrum of the Hamiltonian, the transverse magnetisation and the spin-spin correlation function, all of which signalled a diverging correlation length at the transition point with the exponent of the three-state Potts model. In the vicinity of the classical endpoint the model is mapped to a quantum hard rod model, which belongs also to the universality class of the three-state Potts model. Also the spectrum of the critical Hamiltonian is found in agreement with conformal invariance. At the same time the correlation function shows a jump at the transition point, thus the transition is of mixed order for h<q/(q-1).