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Electron doping as a handle to increase the Curie temperature in ferrimagnetic Mn 3 Si 2 X 6 (X = Se, Te)
By analysing the results of simulations performed for Mn Si X (X = Se, Te), we first discuss the analogies and the differences in electronic and magnetic properties arising from the anion substitution, in terms of size, electronegativity, band widths of p electrons and spin-orbit coupling strengths....
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| Published in: | Physical chemistry chemical physics : PCCP 2024-03, Vol.26 (11), p.8604-8612 |
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| Main Authors: | , , , , , |
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| Language: | English |
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| container_end_page | 8612 |
| container_issue | 11 |
| container_start_page | 8604 |
| container_title | Physical chemistry chemical physics : PCCP |
| container_volume | 26 |
| creator | Qiao, Lei Barone, Paolo Yang, Baishun King, Phil D C Ren, Wei Picozzi, Silvia |
| description | By analysing the results of
simulations performed for Mn
Si
X
(X = Se, Te), we first discuss the analogies and the differences in electronic and magnetic properties arising from the anion substitution, in terms of size, electronegativity, band widths of p electrons and spin-orbit coupling strengths. For example, through mean-field theory and simulations based on density functional theory, we demonstrate that magnetic frustration, known to be present in Mn
Si
Te
, also exists in Mn
Si
Se
and leading to a ferrimagnetic ground state. Building on these results, we propose a strategy, electronic doping, to reduce the frustration and thus to increase the Curie temperature (
). To this end, we first study the effect of electronic doping on the electronic structure and magnetic properties and discuss the differences in the two compounds, along with their causes. Secondly, we perform Monte-Carlo simulations, considering from the first to the fifth nearest-neighbor magnetic interactions and single-ion anisotropy, and show that electron doping efficiently raises the
. |
| doi_str_mv | 10.1039/D3CP05525F |
| format | article |
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simulations performed for Mn
Si
X
(X = Se, Te), we first discuss the analogies and the differences in electronic and magnetic properties arising from the anion substitution, in terms of size, electronegativity, band widths of p electrons and spin-orbit coupling strengths. For example, through mean-field theory and simulations based on density functional theory, we demonstrate that magnetic frustration, known to be present in Mn
Si
Te
, also exists in Mn
Si
Se
and leading to a ferrimagnetic ground state. Building on these results, we propose a strategy, electronic doping, to reduce the frustration and thus to increase the Curie temperature (
). To this end, we first study the effect of electronic doping on the electronic structure and magnetic properties and discuss the differences in the two compounds, along with their causes. Secondly, we perform Monte-Carlo simulations, considering from the first to the fifth nearest-neighbor magnetic interactions and single-ion anisotropy, and show that electron doping efficiently raises the
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simulations performed for Mn
Si
X
(X = Se, Te), we first discuss the analogies and the differences in electronic and magnetic properties arising from the anion substitution, in terms of size, electronegativity, band widths of p electrons and spin-orbit coupling strengths. For example, through mean-field theory and simulations based on density functional theory, we demonstrate that magnetic frustration, known to be present in Mn
Si
Te
, also exists in Mn
Si
Se
and leading to a ferrimagnetic ground state. Building on these results, we propose a strategy, electronic doping, to reduce the frustration and thus to increase the Curie temperature (
). To this end, we first study the effect of electronic doping on the electronic structure and magnetic properties and discuss the differences in the two compounds, along with their causes. Secondly, we perform Monte-Carlo simulations, considering from the first to the fifth nearest-neighbor magnetic interactions and single-ion anisotropy, and show that electron doping efficiently raises the
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simulations performed for Mn
Si
X
(X = Se, Te), we first discuss the analogies and the differences in electronic and magnetic properties arising from the anion substitution, in terms of size, electronegativity, band widths of p electrons and spin-orbit coupling strengths. For example, through mean-field theory and simulations based on density functional theory, we demonstrate that magnetic frustration, known to be present in Mn
Si
Te
, also exists in Mn
Si
Se
and leading to a ferrimagnetic ground state. Building on these results, we propose a strategy, electronic doping, to reduce the frustration and thus to increase the Curie temperature (
). To this end, we first study the effect of electronic doping on the electronic structure and magnetic properties and discuss the differences in the two compounds, along with their causes. Secondly, we perform Monte-Carlo simulations, considering from the first to the fifth nearest-neighbor magnetic interactions and single-ion anisotropy, and show that electron doping efficiently raises the
.</abstract><cop>England</cop><pmid>38319643</pmid><doi>10.1039/D3CP05525F</doi><tpages>9</tpages><orcidid>https://orcid.org/0000-0001-7317-3867</orcidid><orcidid>https://orcid.org/0000-0002-9277-3582</orcidid></addata></record> |
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| source | Royal Society of Chemistry |
| title | Electron doping as a handle to increase the Curie temperature in ferrimagnetic Mn 3 Si 2 X 6 (X = Se, Te) |
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