Field-induced magnetic phases in the Kitaev candidate Na3Co2SbO6
Abstract
We report a rich anisotropic magnetic phase diagram of Na3Co2SbO6, a previously proposed cobaltate Kitaev candidate, based on field- and temperature-dependent magnetization, specific heat, and magnetocaloric effect studies. At low temperatures, our experiments uncover a low-lying jeff = 12 state with an antiferromagnetic ground state and pronounced in-plane versus out-of-plane anisotropy. The experimentally identified magnetic phases are theoretically characterized through classical Monte Carlo simulations within an extended Kitaev-Heisenberg model with additional ring exchange interactions. The resulting phase diagram reveals a variety of exotic field-induced magnetic phases, including double-q, 13-AFM, zigzag, and vortex phases.
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