Magnon gap excitations and spin-entangled optical transition in the van der Waals antiferromagnet NiPS3
Abstract
Optical magneto-spectroscopy methods (Raman scattering, far-infrared transmission, and photoluminescence) have been applied to investigate the properties of the NiPS(3) semiconducting antiferromagnet. The fundamental magnon gap excitation in this van der Waals material has been found to be split into two components, in support of the biaxial character of the NiPS(3) antiferromagnet.
Photoluminescence measurements in the near-infrared spectral range show that the intriguing 1.475 eV excitation unique to the NiPS(3) antiferromagnetic phase splits upon the application of the in-plane magnetic field. The observed splitting patterns are correlated with properties of magnon excitations and reproduced with the simple model proposed.
Possible routes towards a firm identification of the spin-entangled 1.475 eV optical excitation in NiPS(3), which can hardly be recognized as a coherent Zhang-Rice exciton, are discussed.