Quantum spin state transitions in spin-1 equilateral triangular lattice antiferromagnet Na2BaNi(PO4)2

Abstract

We have grown single crystals of Na2BaNi(PO4)2, a new spin-1 equilateral triangular lattice antiferromagnet (ETLAF), and performed magnetic susceptibility, specific heat and thermal conductivity measurements at ultralow temperatures. The main results are (i) at zero magnetic field, Na2BaNi(PO4)2 exhibits a magnetic ordering at 430 mK with a weak ferromagnetic moment along the c axis. This suggests a canted 120 spin structure, which is in a plane including the crystallographic c axis due to the existence of an easy-axis anisotropy and ferromagnetically stacked along the c axis; (ii) with increasing field along the c axis, a 1/3 magnetization plateau is observed which means the canted 120 spin structure is transformed to a up up down (UUD) spin structure. With even higher fields, the UUD phase further evolves to possible V and V' phases; (iii) with increasing field along the a axis, the canted 120 spin structure is possibly transformed to a umbrella phase and a V phase. Therefore, Na2BaNi(PO4)2 is a rare example of spin-1 ETLAF with single crystalline form to exhibit easy-axis spin anisotropy and series of quantum spin state transitions.