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Low-temperature physical properties and electronic structures of Ni_3Sb,Ni_5Sb_2,NiSb_2,and NiSb

Low-temperature physical properties and electronic structures of Ni_3Sb,Ni_5Sb_2,NiSb_2,and NiSb
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摘要 We report the results of low temperature resistivity and magnetization measurements on polycrystalline samples of four Ni-Sb compounds, Ni3 Sb, Ni5 Sb2, NiSb, and NiSb2. Resistivity measurements revealed that these compounds exhibit a metallic type of electrical conductivity. Temperature dependences of the resistivities were well fitted by the generalized Bloch--Griineisen formula v^ith an exponent of n ^- 3, indicating that the s--d interband scattering is the dominant scatter- ing mechanism. The magnetic susceptibilities of NisSb2, NiSb, and NiSb2 are almost independent of temperature (above 150 K), exhibiting Pauli paramagnetic behavior. The temperature dependences of the susceptibilities were fitted using the Curie-Weiss law. Ni3Sb was found to have a paramagnetic-ferromagnetic phase transition at 229 K. First-principles calculations have been performed to investigate the electronic structures and physical properties of these Ni-Sb alloys. The calculation of the band structure predicted that Ni3Sb, NisSb2, NiSb, and NiSb2 have char- acteristics of metal, and the ground state of Ni3Sb is ferromagnetic. The electrical and magnetic properties observed experimentally are consistent with that predicted by the first-principle electronic structure calculations. We report the results of low temperature resistivity and magnetization measurements on polycrystalline samples of four Ni-Sb compounds, Ni3 Sb, Ni5 Sb2, NiSb, and NiSb2. Resistivity measurements revealed that these compounds exhibit a metallic type of electrical conductivity. Temperature dependences of the resistivities were well fitted by the generalized Bloch--Griineisen formula v^ith an exponent of n ^- 3, indicating that the s--d interband scattering is the dominant scatter- ing mechanism. The magnetic susceptibilities of NisSb2, NiSb, and NiSb2 are almost independent of temperature (above 150 K), exhibiting Pauli paramagnetic behavior. The temperature dependences of the susceptibilities were fitted using the Curie-Weiss law. Ni3Sb was found to have a paramagnetic-ferromagnetic phase transition at 229 K. First-principles calculations have been performed to investigate the electronic structures and physical properties of these Ni-Sb alloys. The calculation of the band structure predicted that Ni3Sb, NisSb2, NiSb, and NiSb2 have char- acteristics of metal, and the ground state of Ni3Sb is ferromagnetic. The electrical and magnetic properties observed experimentally are consistent with that predicted by the first-principle electronic structure calculations.
出处 《Chinese Physics B》 SCIE EI CAS CSCD 2015年第6期500-505,共6页 中国物理B(英文版)
基金 Project supported by the National Natural Science Foundation of China(Grant No.21271183) the National Basic Research Program of China(Grant Nos.2011CBA00112 and 2011CB808202)
关键词 Ni-Sb alloys RESISTIVITY SUSCEPTIBILITY electronic structure Ni-Sb alloys, resistivity, susceptibility, electronic structure
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  • 1Cava R J, Takagi H, Zandbergen H W, Krajewski J J, Peck W F, Siegrist T, Batlogg B, Vandover R B, Felder R J, Mizuhashi K, Lee J O, Eisaki H and Uchida S 1994 Nature 367 252.
  • 2Sinha S, Lynn J, Grigereit T, Hossain Z, Gupta L, Nagarajan R and Godart C 1995 Phys. Rev. B 51 681.
  • 3He T, Huang Q, Ramirez A P, Wang Y, Regan K A, Rogado N, Hayward M A, Haas M K, Slusky J S, Inumara K, Zandbergen H W, Ong N P and Cava R J 2001 Nature 411 54.
  • 4Uehara M, Yamazaki T, K?ri T, Kashida T, Kimishima Y and Hase I 2007 J. Phys. Soc. Jpn. 76 034714.
  • 5Uehara M, Uehara A, Kozawa K and Kimishima Y 2009 J. Phys. Soc. Jpn. 78 033702.
  • 6He B, Dong C, Yang L H, Chen X C, Ge L H, Mu L B and Shi Y G 2013 Supercond. Sci. Technol. 26 125015.
  • 7Watanabe T, Yanagi H, Kamiya T, Kamihara Y, Hiramatsu H, Hirano M and Hosono H 2007 Inorg. Chem. 46 7719.
  • 8Tegel M, Bichler D and Johrendt D 2008 Solid State Sci. 10 193.
  • 9Watanabe T, Yanagi H, Kamihara Y, Kamiya T, Hirano M and Hosono H 2008 J. Solid State Chem. 181 2117.
  • 10Buckow A, Retzlaff R, Kurian J and Alff L 2012 Phys. Procedia 27 300.

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