Complete bond-operator theory of the two-chain spin ladder

Abstract

The discovery of the almost ideal, two-chain spin-ladder material (C5H12N)2CuBr4 has once again focused attention on this most fundamental problem in low-dimensional quantum magnetism. Within the bond-operator framework, three qualitative advances are introduced which extend the theory to all finite temperatures and magnetic fields in the gapped regime. This systematic description permits quantitative and parameter-free experimental comparisons, which are presented for the specific heat, and predictions for thermal renormalization of the triplet magnon excitations.