Electronic and magnetic properties of the double perovskites La 2 MnRuO 6 and LaA MnFeO 6 ( A = Ba , Sr , Ca ) and their potential for magnetic refrigeration

Magnetic refrigeration at room-temperature is a technology that could potentially be more environmentally friendly, efficient, and affordable than traditional refrigeration. The search for suitable materials for magnetocaloric refrigeration led to the study of double-perovskites La 2 MnNiO 6 , La 2...

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Veröffentlicht in:	Physical review. B 2019-03, Vol.99 (12), Article 125110
Hauptverfasser:	Gauvin-Ndiaye, C., Tremblay, A.-M. S., Nourafkan, R.
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Sprache:	eng
Schlagworte:	Barium Calcium Computer simulation Couplings Density functional theory Ferrimagnetism Ferromagnetism Ising model Magnetic moments Magnetic properties Mapping Perovskites Refrigeration Strontium
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creator	Gauvin-Ndiaye, C. Tremblay, A.-M. S. Nourafkan, R.
description	Magnetic refrigeration at room-temperature is a technology that could potentially be more environmentally friendly, efficient, and affordable than traditional refrigeration. The search for suitable materials for magnetocaloric refrigeration led to the study of double-perovskites La 2 MnNiO 6 , La 2 MnCoO 6 , and La 2 MnFeO 6 . While La 2 MnNiO 6 and La 2 MnCoO 6 are ferromagnets with near room-temperature T C s , a previous theoretical study of double-perovskite La 2 MnFeO 6 revealed that this material is a ferrimagnet due to strong electronic interactions in Fe − d orbitals. Here we investigate the double-perovskites La 2 MnRuO 6 and La A MnFeO 6 ( A = Ba, Ca, and Sr) with density functional theory (DFT) as materials that can counteract the effects the strong repulsion present in the in Fe − d shells of La 2 MnFeO 6 and lead to a ferromagnetic state. Our study reveals that while La 2 MnRuO 6 is also a ferrimagnet, but with a higher net magnetic moment per formula than La 2 MnFeO 6 , doubly ordered La A MnFeO 6 are ferromagnets. By mapping the total energy of the La A MnFeO 6 compounds obtained from DFT calculations to the Ising model, we also calculate their magnetic exchange couplings. This allows us to estimate the trend in T C of the three doped La 2 MnFeO 6 materials with classical Monte Carlo calculations and predict that doubly ordered LaBaMnFeO 6 and LaSrMnFeO 6 could be suitable materials for room-temperature magnetic refrigeration.
doi_str_mv	10.1103/PhysRevB.99.125110
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S. ; Nourafkan, R.</creator><creatorcontrib>Gauvin-Ndiaye, C. ; Tremblay, A.-M. S. ; Nourafkan, R.</creatorcontrib><description>Magnetic refrigeration at room-temperature is a technology that could potentially be more environmentally friendly, efficient, and affordable than traditional refrigeration. The search for suitable materials for magnetocaloric refrigeration led to the study of double-perovskites La 2 MnNiO 6 , La 2 MnCoO 6 , and La 2 MnFeO 6 . While La 2 MnNiO 6 and La 2 MnCoO 6 are ferromagnets with near room-temperature T C s , a previous theoretical study of double-perovskite La 2 MnFeO 6 revealed that this material is a ferrimagnet due to strong electronic interactions in Fe − d orbitals. Here we investigate the double-perovskites La 2 MnRuO 6 and La A MnFeO 6 ( A = Ba, Ca, and Sr) with density functional theory (DFT) as materials that can counteract the effects the strong repulsion present in the in Fe − d shells of La 2 MnFeO 6 and lead to a ferromagnetic state. Our study reveals that while La 2 MnRuO 6 is also a ferrimagnet, but with a higher net magnetic moment per formula than La 2 MnFeO 6 , doubly ordered La A MnFeO 6 are ferromagnets. By mapping the total energy of the La A MnFeO 6 compounds obtained from DFT calculations to the Ising model, we also calculate their magnetic exchange couplings. This allows us to estimate the trend in T C of the three doped La 2 MnFeO 6 materials with classical Monte Carlo calculations and predict that doubly ordered LaBaMnFeO 6 and LaSrMnFeO 6 could be suitable materials for room-temperature magnetic refrigeration.</description><identifier>ISSN: 2469-9950</identifier><identifier>EISSN: 2469-9969</identifier><identifier>DOI: 10.1103/PhysRevB.99.125110</identifier><language>eng</language><publisher>College Park: American Physical Society</publisher><subject>Barium ; Calcium ; Computer simulation ; Couplings ; Density functional theory ; Ferrimagnetism ; Ferromagnetism ; Ising model ; Magnetic moments ; Magnetic properties ; Mapping ; Perovskites ; Refrigeration ; Strontium</subject><ispartof>Physical review. 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B</title><description>Magnetic refrigeration at room-temperature is a technology that could potentially be more environmentally friendly, efficient, and affordable than traditional refrigeration. The search for suitable materials for magnetocaloric refrigeration led to the study of double-perovskites La 2 MnNiO 6 , La 2 MnCoO 6 , and La 2 MnFeO 6 . While La 2 MnNiO 6 and La 2 MnCoO 6 are ferromagnets with near room-temperature T C s , a previous theoretical study of double-perovskite La 2 MnFeO 6 revealed that this material is a ferrimagnet due to strong electronic interactions in Fe − d orbitals. Here we investigate the double-perovskites La 2 MnRuO 6 and La A MnFeO 6 ( A = Ba, Ca, and Sr) with density functional theory (DFT) as materials that can counteract the effects the strong repulsion present in the in Fe − d shells of La 2 MnFeO 6 and lead to a ferromagnetic state. Our study reveals that while La 2 MnRuO 6 is also a ferrimagnet, but with a higher net magnetic moment per formula than La 2 MnFeO 6 , doubly ordered La A MnFeO 6 are ferromagnets. By mapping the total energy of the La A MnFeO 6 compounds obtained from DFT calculations to the Ising model, we also calculate their magnetic exchange couplings. 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S. ; Nourafkan, R.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c1209-af460864e3c85c2c140be78e97bd10e7e8d0d8e3a140d991658960f2412ddc9d3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2019</creationdate><topic>Barium</topic><topic>Calcium</topic><topic>Computer simulation</topic><topic>Couplings</topic><topic>Density functional theory</topic><topic>Ferrimagnetism</topic><topic>Ferromagnetism</topic><topic>Ising model</topic><topic>Magnetic moments</topic><topic>Magnetic properties</topic><topic>Mapping</topic><topic>Perovskites</topic><topic>Refrigeration</topic><topic>Strontium</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Gauvin-Ndiaye, C.</creatorcontrib><creatorcontrib>Tremblay, A.-M. S.</creatorcontrib><creatorcontrib>Nourafkan, R.</creatorcontrib><collection>CrossRef</collection><collection>Engineered Materials Abstracts</collection><collection>Solid State and Superconductivity Abstracts</collection><collection>METADEX</collection><collection>Technology Research Database</collection><collection>Aerospace Database</collection><collection>Materials Research Database</collection><collection>Advanced Technologies Database with Aerospace</collection><jtitle>Physical review. B</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Gauvin-Ndiaye, C.</au><au>Tremblay, A.-M. S.</au><au>Nourafkan, R.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Electronic and magnetic properties of the double perovskites La 2 MnRuO 6 and LaA MnFeO 6 ( A = Ba , Sr , Ca ) and their potential for magnetic refrigeration</atitle><jtitle>Physical review. B</jtitle><date>2019-03-15</date><risdate>2019</risdate><volume>99</volume><issue>12</issue><artnum>125110</artnum><issn>2469-9950</issn><eissn>2469-9969</eissn><abstract>Magnetic refrigeration at room-temperature is a technology that could potentially be more environmentally friendly, efficient, and affordable than traditional refrigeration. The search for suitable materials for magnetocaloric refrigeration led to the study of double-perovskites La 2 MnNiO 6 , La 2 MnCoO 6 , and La 2 MnFeO 6 . While La 2 MnNiO 6 and La 2 MnCoO 6 are ferromagnets with near room-temperature T C s , a previous theoretical study of double-perovskite La 2 MnFeO 6 revealed that this material is a ferrimagnet due to strong electronic interactions in Fe − d orbitals. Here we investigate the double-perovskites La 2 MnRuO 6 and La A MnFeO 6 ( A = Ba, Ca, and Sr) with density functional theory (DFT) as materials that can counteract the effects the strong repulsion present in the in Fe − d shells of La 2 MnFeO 6 and lead to a ferromagnetic state. Our study reveals that while La 2 MnRuO 6 is also a ferrimagnet, but with a higher net magnetic moment per formula than La 2 MnFeO 6 , doubly ordered La A MnFeO 6 are ferromagnets. By mapping the total energy of the La A MnFeO 6 compounds obtained from DFT calculations to the Ising model, we also calculate their magnetic exchange couplings. This allows us to estimate the trend in T C of the three doped La 2 MnFeO 6 materials with classical Monte Carlo calculations and predict that doubly ordered LaBaMnFeO 6 and LaSrMnFeO 6 could be suitable materials for room-temperature magnetic refrigeration.</abstract><cop>College Park</cop><pub>American Physical Society</pub><doi>10.1103/PhysRevB.99.125110</doi></addata></record>
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subjects	Barium Calcium Computer simulation Couplings Density functional theory Ferrimagnetism Ferromagnetism Ising model Magnetic moments Magnetic properties Mapping Perovskites Refrigeration Strontium
title	Electronic and magnetic properties of the double perovskites La 2 MnRuO 6 and LaA MnFeO 6 ( A = Ba , Sr , Ca ) and their potential for magnetic refrigeration
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