Dimensional change of quadrupole orders in pseudospin-12 pyrochlore magnets under [111] field

Abstract

We have studied long range orders of electric quadrupole moments described by an effective pseudospin-12 Hamiltonian representing pyrochlore magnets with non-Kramers ions under [111] magnetic field, in relevance to Tb2Ti2O7. Order parameters and phase transitions of this frustrated system are investigated using classical Monte-Carlo simulations. In zero field, the model undergoes a first-order phase transition from a paramagnetic state to an ordered state with an antiparallel arrangement of pseudospins. This pseudospin order is characterized by the wavevector k=0 and is selected by an energetic or an order-by-disorder mechanism from degenerate k=(h,h,h) mean-field orders. Under [111] magnetic field this three-dimensional quadrupole order is transformed to a quasi two-dimensional quadrupole order on each kagom\'e lattice separated by field-induced ferromagnetic triangular lattices. We discuss implication of the simulation results with respect to experimental data of Tb2Ti2O7.