Study on the electronic structures of Iridium-doped SmOFeAs under the strongly correlated electrons effects

Pan Min; Huang Zheng; Zhao Yong

doi:10.7498/aps.62.217401

Abstract

Based on the consideration of strong correlation of electrons, we have used density functional theory generalized gradient approximation method SGGA+U to calculate SmFeAsO and Ir doping effects on the lattices and electronic properties. It is found that iridium doping at the Fe site enhances the interaction between FeAs and SmO layers and results in a modification of the FeAs4 tetrahedron. The electronic density of states (DOS) of SmOFe1-xIrxAs is studied by comparing the calculations with the X-ray photoemission spectroscopy experiments (XPS). It is revealed that the Fe 3d and As 4p hybridization orbits dominate the electric properties for SmOFe1-xIrxAs. Ir doping makes the five orbitals of Fe3d all filled. Superconductivity is sensitive to the peak position shifting away from Fermi level. Our VASP SGGA+U calculation provides a better agreement with the experimental results when we use an on-site coulomb energy of U on Fe 3d shell, which is sharply contrasted to the GGA process.

Keywords:

Authors and contacts

1.
Superconductivity and New Energy R&D Center, Key Laboratory of Advanced Technology of Materials (Ministry of Education), Southwest Jiaotong University, Chengdu 610031, China;
2.
School of Materials Science and Engineering, University of New South Wales, Sydney 2052, NSW, Australia
Funds: Project supported by the National Magnetic Confinement Fusion Science Program, China (Grant No. 2011GB112001), the Program of International S&T Cooperation (Grant No. 2013DFA51050), the Fundamental Research Funds for the Central Universities, China (Grant Nos. SWJTU12CX019, 2682013ZT16, SWJTU11ZT31, 2682013CX004), and the National Natural Science Foundation of China (Grant No. 51271155).

References

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Cited By

[1]	Wen H H, Mu G, Fang L, Yang H, Zhu X Y 2008 Europhys. Lett. 82 17009
[2]	Chen G F, Li Z, Wu D, Li G, Hu W Z, Dong J, Zheng P, Luo J L, Wang N L 2008 Phys. Rev. Lett. 100 247002
[3]	Ren Z A, Yang J, Lu W, Yi W, Che G C, Dong X L, Sun L L, Zhao Z X 2008 Materials Research Innovations. 12 105
[4]	Ren Z A, Yang J, Lu W, Yi W, Shen X L, Li Z C, Che G C, Dong X L, Sun L L, Zhou F, Zhao Z X 2008 Europhys. Lett. 82 57002
[5]	Chen X H, Wu T, Wu G, Liu R H, Chen H, Fang D F 2008 Nature 453 761
[6]	Kadowaki K, Goya T, Mochiji T, Chong S V 2009 J. Phys.: Conf. Ser. 150 052088
[7]	Athena S, Sefat, Ashfia H, Michael A McGuire, Jin R Y, Sales B C, Mandrus D 2008 Phys. Rev. B 78 104505
[8]	Sefat A S, McGuire M A, Jin R Y, Sales B C, Mandrus D 2008 Phys. Rev. Lett. 101 117004
[9]	Zhang J H, Ma B, Liu S, Liu M 2006 Acta Phys. Sin. 55 4816 (in Chinese) [张加宏, 马荣, 刘甦, 刘楣 2006 55 4816]
[10]	Ma R, Zhang J H, Du J L, Liu S, Liu M 2006 Acta Phys. Sin. 55 6580 (in Chinese) [马荣, 张加宏, 杜锦丽, 刘甦, 刘楣 2006 55 6580]
[11]	Liu S, Li B, Wang W, Wang J, Liu M 2010 Acta Phys. Sin. 59 4245 (in Chinese) [刘甦, 李斌, 王玮, 汪军, 刘楣 2010 59 4245]
[12]	Lebegue 2007 Phys. Rev. B 75 035110
[13]	Giovannetti G, Kumar S, Brink J D 2008 Physica B 403 3653
[14]	Li B, Xing Z W, Liu M 2011 Acta Phys. Sin. 60 077402 (in Chinese) [李斌, 邢钟文, 刘楣 2011 60 077402]
[15]	Li Z C, Lu W, Dong X L, Zhou F, Zhao Z X 2010 Chin. Phys. B 19 026103
[16]	Chen Y L, Cheng C H, Cui Y J, Zhang H, Zhang Y, Yang Y, Zhao Y 2009 J. Am. Chem. Soc. 131 10338
[17]	Kresse G, Furthmuller 1996 J. Phys. Rev. B 54 169 Kresse G, Furthmuller 1996 J. comput. Mater. Sci. 6 15
[18]	Anisimov V I, Zaanen J, Anderson O K 1991 Phys. Rev. B 44 943
[19]	Dong J, Zhang H J, Xu G, Li Z, Li G, Hu W Z, Wu D, Chen G F, Dai X, Luo J L, Fang Z, Wang N L 2008 EPL. 83 27006
[20]	Kamihara Y, Watanabe T, Hirano M, Hosono H 2008 J. Am. Chem. Soc. 130 3296
[21]	Kamihara Y, Hiramatsu H, Hirano M, Kawamura R, Yanagi H, Kamiya T 2006 J. Am. Chem. Soc. 128 10012

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Vol. 62, Issue 21 - 2013-11-05

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