Thermodynamics of the coupled spin-dimer system TlCuCl3 close to a quantum phase transition
arXiv:cond-mat/0609348 · doi:10.1016/j.jmmm.2007.02.154
Abstract
We present thermal expansion alpha, magnetostriction and specific heat C measurements of \tal, which shows a quantum phase transition from a spin-gap phase to a Neel-ordered ground state as a function of magnetic field around H_{C0}->4.8T. Using Ehrenfest's relation, we find huge pressure dependencies of the spin gap for uniaxial as well as for hydrostatic pressure. For T->0 and H->H_{C0} we observe a diverging Grueneisen parameter Gamma(T)=alpha/C, in qualitative agreement with theoretical predictions. However, the predicted individual temperature dependencies alpha(T) and C(T) are not reproduced by our experimental data.
6 pages including 7 figures, contribution to the III Joint European Magnetic Symposia 2006, San Sebastian