Effects of two energy scales in weakly dimerized antiferromagnetic quantum spin chains

Abstract

By means of thermal expansion and specific heat measurements on the high-pressure phase of (VO)₂P₂O₇, the effects of two energy scales of the weakly dimerized antiferromagnetic S=½ Heisenberg chain are explored. The low-energy scale, given by the spin gap Δ, is found to manifest itself in a pronounced thermal expansion anomaly. A quantitative analysis, employing the density-matrix renormalization-group approach for transfer matrices calculations, shows that this feature originates from changes in the magnetic entropy with respect to Δ, ∂S^m/∂Δ. This term, inaccessible by specific heat, is visible only in the weak-dimerization limit, where it reflects peculiarities of the excitation spectrum and its sensitivity to variations in Δ.