Quantum versus classical nature of a low-temperature magnetic phase transition in TbAl3(BO3)4

Abstract

Specific heat, CB, of a TbAl3(BO3)4 crystal was studied for 50 mK <T< 300 K, with emphasis on T<1 K, where a phase transition was found at Tc =0.68 K. Nuclear, non-phonon (Cm), and lattice contributions to CB were separated. Lowering of Tc with ncrease of magnetic field parallel to the easy magnetization axis, B||, was found. It was established that Cm and a Gr\"uneisen ratio depend on B|| and T in a way characteristic of systems, in which a classical transition is driven by quantum fluctuations, QF, to a quantum critical point at T=0, by tuning a control parameter (B||). The B|| - T phase diagram was constructed and the dynamical critical exponent 0.82 z 0.96 was assessed. Nature of the transition was not established explicitly. Magnetization studies point at the ferromagnetic ordering of Tb3+ magnetic moments, however, lowering of Tc with increase in B|| is opposite to the classical behavior. Hence, a dominant role of QF was supposed.