Low-energy excitations and magnetic anisotropy of the layered van der Waals antiferromagnet Ni2P2S6
Abstract
The quasi-two-dimensional antiferromagnet Ni2P2S6 belongs to the family of magnetic van der Waals compounds that provides a rich material base for the realization of fundamental models of quantum magnetism in low dimensions. Here, we report high-frequency/high-magnetic field electron spin resonance measurements on single crystals of Ni2P2S6. The results enable one to reliably determine the positive, "easy"-plane type of the single ion anisotropy of the Ni2+ ions with the upper limit of its magnitude 0.7 meV. The resonance response reveals strongly anisotropic spin fluctuations setting in shortly above the N\'eel temperature T N = 158 K and extending in the antiferromagnetically ordered state down to low temperatures. There, a low-energy magnon excitation gapped from the ground state by only 1 meV was found. This magnon mode may explain unusual low temperature relaxation processes observed in a latest nuclear magnetic resonance experiments and together with the estimate of the single ion anisotropy they should enable setting up a realistic spin model for an accurate description of magnetic properties of Ni2P2S6.
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