- Journal Home
- Volume 35 - 2024
- Volume 34 - 2023
- Volume 33 - 2023
- Volume 32 - 2022
- Volume 31 - 2022
- Volume 30 - 2021
- Volume 29 - 2021
- Volume 28 - 2020
- Volume 27 - 2020
- Volume 26 - 2019
- Volume 25 - 2019
- Volume 24 - 2018
- Volume 23 - 2018
- Volume 22 - 2017
- Volume 21 - 2017
- Volume 20 - 2016
- Volume 19 - 2016
- Volume 18 - 2015
- Volume 17 - 2015
- Volume 16 - 2014
- Volume 15 - 2014
- Volume 14 - 2013
- Volume 13 - 2013
- Volume 12 - 2012
- Volume 11 - 2012
- Volume 10 - 2011
- Volume 9 - 2011
- Volume 8 - 2010
- Volume 7 - 2010
- Volume 6 - 2009
- Volume 5 - 2009
- Volume 4 - 2008
- Volume 3 - 2008
- Volume 2 - 2007
- Volume 1 - 2006
Commun. Comput. Phys., 13 (2013), pp. 526-539.
Published online: 2013-02
Cited by
- BibTex
- RIS
- TXT
A search was made for possible half-metallic (HM) antiferromagnet (AFM) in all the ($C_2^{29}$=406) double perovskites structures of Sr2$BB′$O6 where $BB′$ pairs are any combination of 3d, 4d or 5d transition elements with the exception of La. Sr can also be replaced by Ca or Ba whenever HM-AFM was found and similar calculations were then performed in order to probe further possibilities. It was found that $A$2MoOsO6, $A$2TcReO6, $A$2CrRuO6, where $A$=Ca, Sr, Ba, are all potential candidates for HM-AFM. The AFM of $A$2$BB′$O6 comes from both the superexchange mechanism and the generalized double exchange mechanism via the $B$($t$2$g$)-O2$p$$π$-$B′$($t$2$g$) coupling, with the latter also being the origin of their HM. Also considered were the effects of spin-orbit coupling (SOC) and correlation (+$U$) by introducing +SOC and +$U$ corrections. It is found that the SOC effect has much less influence than the correlation effect on the HM property of the compounds. For $A$2TcReO6 and $A$2CrRuO6, after+$U$, they become nearly Mott-Insulators. In the future, it is hoped that there will be further experimental confirmation for these possible HM-AFM candidates.
}, issn = {1991-7120}, doi = {https://doi.org/10.4208/cicp.300911.090312a}, url = {http://global-sci.org/intro/article_detail/cicp/7234.html} }A search was made for possible half-metallic (HM) antiferromagnet (AFM) in all the ($C_2^{29}$=406) double perovskites structures of Sr2$BB′$O6 where $BB′$ pairs are any combination of 3d, 4d or 5d transition elements with the exception of La. Sr can also be replaced by Ca or Ba whenever HM-AFM was found and similar calculations were then performed in order to probe further possibilities. It was found that $A$2MoOsO6, $A$2TcReO6, $A$2CrRuO6, where $A$=Ca, Sr, Ba, are all potential candidates for HM-AFM. The AFM of $A$2$BB′$O6 comes from both the superexchange mechanism and the generalized double exchange mechanism via the $B$($t$2$g$)-O2$p$$π$-$B′$($t$2$g$) coupling, with the latter also being the origin of their HM. Also considered were the effects of spin-orbit coupling (SOC) and correlation (+$U$) by introducing +SOC and +$U$ corrections. It is found that the SOC effect has much less influence than the correlation effect on the HM property of the compounds. For $A$2TcReO6 and $A$2CrRuO6, after+$U$, they become nearly Mott-Insulators. In the future, it is hoped that there will be further experimental confirmation for these possible HM-AFM candidates.