Heavy-fermion behavior, crystalline electric field effects, and weak ferromagnetism in SmOs4Sb12

Autor(en)

William M. Yuhasz, Neil A. Frederick, Pei Chun Ho, N P Butch, B J Taylor, T A Sayles, M. Brian Maple, Jonathan B. Betts, A H Lacerda, Peter Franz Rogl, Gerald Giester

Abstrakt

The filled skutterudite compound SmOs4Sb12 was prepared in single-crystal form and characterized using x-ray diffraction, specific-heat, electrical resistivity, and magnetization measurements. The SmOs4Sb12 crystals have the LaFe4P 12-type structure with lattice parameter a=9.3085 A°. Specific-heat measurements indicate a large electronic specific-heat coefficient of ˜880 mJ/mol K2, from which an enhanced effective mass m* ˜170me is estimated. The specific-heat data also suggest crystalline electric field (CEF) splitting of the Sm3+J=5/2 multiplet into a G7 doublet ground state and a G8 quartet excited state separated by ~37 K. Electrical resistivity ?(T) measurements reveal a decrease in ?(T) below ~50 K that is consistent with CEF splitting of ~33 K between a G7 doublet ground state and G8 quartet excited state. Specific-heat and magnetic susceptibility measurements display a possible weak ferromagnetic transition at ~2.6 K, which could be an intrinsic property of SmOs4Sb 12 or possibly due to an unknown impurity phase. Œ2005 The American Physical Society.

Organisation(en)

Institut für Physikalische Chemie, Institut für Mineralogie und Kristallographie

Externe Organisation(en)

University of California, San Diego, National High Magnetic Field Laboratory

Journal

Physical Review B

Band

71

Seiten

1-9

Anzahl der Seiten

9

ISSN

1098-0121

Publikationsdatum

2005

Peer-reviewed

Ja

ÖFOS 2012

105113 Kristallographie

Link zum Portal

https://ucrisportal.univie.ac.at/de/publications/e5374eaa-b6c8-4e6d-89eb-4d3eef840c3c