Stabilization of zigzag order in NiPS3 via positive biquadratic interaction

Abstract

Despite extensive research, the precise spin Hamiltonian of the van der Waals antiferromagnet NiPS3 -- which hosts a zigzag-ordered ground state -- remains debated. While consensus has emerged on ferromagnetic nearest-neighbor (J1) and antiferromagnetic third-nearest-neighbor (J3) Heisenberg interactions, recent studies suggest a biquadratic (B) exchange term may also play a role, though its estimated magnitude varies widely. To address this controversy, we perform density functional theory calculations and extract a positive biquadratic interaction with B/J3 ≈ 0.44. Within the minimal J1-J3-B model, we show that these parameters naturally stabilize zigzag ordering using minimally augmented spin-wave theory. Density-matrix renormalization group calculations further validate our extracted parameters as a reasonable description of the ground state. Although fully resolving the spin Hamiltonian of NiPS3 requires further investigation, our findings provide new insights into its biquadratic interaction.

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