Study of Field-Induced Magnetic Order in Singlet-Ground-State Magnet CsFeCl3

Abstract

The field-induced magnetic order in the singlet-ground-state system CsFeCl3 has been studied by measuring magnetization and neutron diffraction. The field dependence of intensity for the neutron magnetic reflection has clearly demonstrated that the field-induced ordered phase is described by the order parameter <Sx>. A condensate growth of magnons is investigated through the temperature dependence of Mz and M, and this ordering is discussed in the context of a magnon Bose-Einstein condensation. Development of the coherent state and the static correlation length has been observed in the incommensurate phase in the field region of 5 < H < 6 T at 1.8 K. At H > H c, a satellite peak was found in coexistence with the commensurate peak at the phase boundary around 10 T, which indicates that the tilt of the c-axis would be less than 0.5 in the whole experiments.

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