Magnetic properties of pressurized CsV3Sb5 calculated by using a hybrid functional
Abstract
Based on the hybrid functional, we find that at 0 GPa, the pristine CsV3Sb5 has local magnetic moment of 0.85 μB /unit cell, which is suppressed at pressure of 2.5 GPa resulting in a spin-crossover. Since the ground sate of CsV3Sb5 with charge density wave (CDW) distortion is non-magnetic state, the local magnetic moment of pristine CsV3Sb5 will be suppressed by temperature-induced CDW transition at 94 K. The schematic evolution of magnetic moments as functions of pressure and temperature are presented. At low temperature, CsV3Sb5 is a rare example of materials hosting pressureinduced local magnetic moment, and we suggeste that the effects of local magnetic moments should be considered for understanding its properties.
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