Quantum fidelity approach to the ground state properties of the 1D ANNNI model in a transverse field

Abstract

In this work we analyze the ground-state properties of the s=1/2 one-dimensional ANNNI model in a transverse field using the quantum fidelity approach. We numerically determined the fidelity susceptibility as a function of the transverse field Bx and the strength of the next-nearest-neighbor interaction J2, for systems of up to 24 spins. We also examine the ground-state vector with respect to the spatial ordering of the spins. The ground-state phase diagram shows ferromagnetic, paramagnetic, floating, 2,2 phases, and we predict an infinite number of modulated phases in the thermodynamic limit (L → ∞). The transition lines separating the modulated phases seem to be of second-order, whereas the line between the floating and the 2,2 phases is possibly of first-order.