Thermodynamics of the Spin Luttinger-Liquid in a Model Ladder Material

Abstract

The phase diagram in temperature and magnetic field of the metal-organic, two-leg spin-ladder compound (C5H12N)2CuBr4 is studied by measurements of the specific heat and the magnetocaloric effect. We demonstrate the presence of an extended spin Luttinger-liquid phase between two field-induced quantum critical points, which exists over a broad range of temperature. Based on an ideal spin-ladder Hamiltonian, comprehensive numerical modelling of the ladder specific heat is presented across its complete phase diagram. It is found to be in excellent quantitative agreement with the experimental data.