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Main Authors: Tiwari, Sabyasachi, Van de Put, Maarten, Soree, Bart, Hinkle, Christopher, Vandenberghe, William G.
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2312.15171
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author Tiwari, Sabyasachi
Van de Put, Maarten
Soree, Bart
Hinkle, Christopher
Vandenberghe, William G.
author_facet Tiwari, Sabyasachi
Van de Put, Maarten
Soree, Bart
Hinkle, Christopher
Vandenberghe, William G.
contents Using Hubbard U corrected density functional theory calculations, lattice Monte-Carlo, and spin-Monte-Carlo simulations, we investigate the impact of dopant clustering on the magnetic properties of WSe2~doped with period four transition metals. We use manganese (Mn) and iron (Fe) as candidate n-type dopants and vanadium (V) as the candidate p-type dopants, substituting the tungsten (W) atom in WSe2. Specifically, we determine the strength of the exchange interaction in the Fe-, Mn-, and V-doped WSe2~ in the presence of clustering. We show that the clusters of dopants are energetically more stable than discretely doped systems. Further, we show that in the presence of dopant clustering, the magnetic exchange interaction significantly reduces because the magnetic order in clustered WSe2~becomes more itinerant. Finally, we show that the clustering of the dopant atoms has a detrimental effect on the magnetic interaction, and to obtain an optimal Curie temperature, it is important to control the distribution of the dopant atoms.
format Preprint
id arxiv_https___arxiv_org_abs_2312_15171
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Reduction of Magnetic Interaction Due to Clustering in Doped Transition-Metal Dichalcogenides: A Case Study of Mn, V, Fe-Doped $\rm WSe_2$
Tiwari, Sabyasachi
Van de Put, Maarten
Soree, Bart
Hinkle, Christopher
Vandenberghe, William G.
Materials Science
Using Hubbard U corrected density functional theory calculations, lattice Monte-Carlo, and spin-Monte-Carlo simulations, we investigate the impact of dopant clustering on the magnetic properties of WSe2~doped with period four transition metals. We use manganese (Mn) and iron (Fe) as candidate n-type dopants and vanadium (V) as the candidate p-type dopants, substituting the tungsten (W) atom in WSe2. Specifically, we determine the strength of the exchange interaction in the Fe-, Mn-, and V-doped WSe2~ in the presence of clustering. We show that the clusters of dopants are energetically more stable than discretely doped systems. Further, we show that in the presence of dopant clustering, the magnetic exchange interaction significantly reduces because the magnetic order in clustered WSe2~becomes more itinerant. Finally, we show that the clustering of the dopant atoms has a detrimental effect on the magnetic interaction, and to obtain an optimal Curie temperature, it is important to control the distribution of the dopant atoms.
title Reduction of Magnetic Interaction Due to Clustering in Doped Transition-Metal Dichalcogenides: A Case Study of Mn, V, Fe-Doped $\rm WSe_2$
topic Materials Science
url https://arxiv.org/abs/2312.15171