TY - JOUR
T1 - First principle research of possible HM-AFM in double perovskites A 2MoOsO6 and A2TcReO6 (A = Si, Ge, Sn, and Pb) with group IVA elements set on the A-site position
AU - Fuh, Huei Ru
AU - Liu, Yun Ping
AU - Wang, Yin Kuo
N1 - Funding Information:
The authors gratefully acknowledge the resource support from the Computational Materials Research Focus Group (CMRFG) , the National Science Council ( 99B0320 ), and the National Center for High-Performance Computing of Taiwan (NCHC) for their computer time and facilities. Finally, Y.K. Wang would also like to thank Chun-Yen Chang for the financial support received from the Science Education Center.
PY - 2013
Y1 - 2013
N2 - We calculated electronic structures of double perovskite structures of A2MoOsO6 and A2TcReO6 (A = Si, Ge, Sn, and Pb) based on the density functional theory which was carried out with a full structural optimization using generalized gradient approximation and taking into account the correlation effect (GGA + U). In GGA calculation, Pb 2TcReO6 shows a half-metallic antiferromagnet (HM-AFM) characteristic, whereas Sn2MoOsO6, Pb 2MoOsO6, and Sn2TcReO6 are nearly HM-AFMs. With GGA + U calculation, Sn2MoOsO6 and Pb 2MoOsO6 become stable HM-AFM, but Sn2TcReO 6 and Pb2TcReO6 changes HM-AFM into an antiferromagnetic insulator. The p-d hybridization between B(B′) d-Op and double exchange interaction is the mean reason to result in the half-metallic and compensated ferrimagnetic phase.
AB - We calculated electronic structures of double perovskite structures of A2MoOsO6 and A2TcReO6 (A = Si, Ge, Sn, and Pb) based on the density functional theory which was carried out with a full structural optimization using generalized gradient approximation and taking into account the correlation effect (GGA + U). In GGA calculation, Pb 2TcReO6 shows a half-metallic antiferromagnet (HM-AFM) characteristic, whereas Sn2MoOsO6, Pb 2MoOsO6, and Sn2TcReO6 are nearly HM-AFMs. With GGA + U calculation, Sn2MoOsO6 and Pb 2MoOsO6 become stable HM-AFM, but Sn2TcReO 6 and Pb2TcReO6 changes HM-AFM into an antiferromagnetic insulator. The p-d hybridization between B(B′) d-Op and double exchange interaction is the mean reason to result in the half-metallic and compensated ferrimagnetic phase.
KW - Double perovskites
KW - First principle
KW - Half-metallic antiferromagnet
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U2 - 10.1016/j.solidstatesciences.2013.01.016
DO - 10.1016/j.solidstatesciences.2013.01.016
M3 - Article
AN - SCOPUS:84875134827
SN - 1293-2558
VL - 19
SP - 94
EP - 98
JO - Solid State Sciences
JF - Solid State Sciences
ER -