Spin model for the Honeycomb $\rm NiPS_3$, Prof. Paula Mellado, Adolfo Ibáñez University

Spin model for the Honeycomb $\rm NiPS_3$, Prof. Paula Mellado, Adolfo Ibáñez University
Tuesday February 6th, 2024 02:00 PM to 03:00 PM
Lab 4, Level E, L4E48

Description

Date: Tuesday, February 6

Time: 14:00-15:00

Location: Lab 4, Level E, L4E48

 

Speaker: Prof. Paula Mellado, Adolfo Ibáñez University

 

Title :  Spin model for the Honeycomb $\rm NiPS_3$

 

Abstract:

In the Van der Waal material $\rm NiPS_3$, Ni atoms have spin S=1 and realize a honeycomb lattice. Six sulfur atoms surround each Ni and split their d manifold into three filled and two unfilled bands. Aimed to determine the spin Hamiltonian of $\rm NiPS_3$, we study its exchange mechanisms using a two-band half-filled Hubbard model. Hopping between d orbitals is mediated by p orbitals of sulfur and gives rise to bilinear and biquadratic spin couplings in the limit of strong electronic correlations. The microscopic model exposed a ferromagnetic  biquadratic spin interaction $\rm K_1$ allowing the completion of a minimal $\rm J_1-J_3-K_1$ spin Hamiltonian for $\rm NiPS_3$. In bulk, a ferromagnetic first nearest neighbor $\rm J_1$ and a more significant antiferromagnetic third nearest neighbor spin coupling $\rm J_3$ agreed with the literature, while in monolayer $\rm J_1$ is positive and very small in comparison. Using a variational scheme, we found that a zig-zag antiferromagnetic order is the ground state of bulk samples. The zig-zag pattern is adjacent to commensurate and incommensurate spin spirals, which could hint at the puzzling results reported in  $\rm NiPS_3$ monolayers.

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