Anomalous behavior of the spin gap of a spin-1/2 two-leg antiferromagnetic ladder with Ising-like rung interactions

Abstract

Using mainly numerical methods, we investigate the width of the spin gap of a spin-1/2 two-leg ladder described by = J Σj=1N/2 [ j,a · j+1,a + j,b · j+1,b ] + J Σj=1N/2 [λ (Sxj,a Sxj,b + Syj,a Syj,b) + Szj,a Szj,b] , where Sαj,a(b) denotes the α-component of the spin-1/2 operator at the j-th site of the a (b) chain. We mainly focus on the J J > 0 and |λ| 1 case. The width of the spin gap as a function of λ anomalously increases near λ = 0; for instance, for -0.1 < λ < 0.1 when J l/J r = 0.1. The gap formation mechanism is thought to be different for the λ < 0 and λ > 0 cases. Since, in usual cases, the width of the gap becomes zero or small at the point where the gap formation mechanism changes, the above gap-increasing phenomenon in the present case is anomalous. We explain the origin of this anomalous phenomenon by use of the degenerate perturbation theory. We also draw the ground-state phase diagram.