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Thermodynamic and transport properties of single crystalline RCo2Ge2 (R,Y, La-Nd, Sm-Tm)

TitleThermodynamic and transport properties of single crystalline RCo2Ge2 (R,Y, La-Nd, Sm-Tm)
Publication TypeJournal Article
Year of Publication2014
AuthorsKong, T, Cunningham, CE, Taufour, V, Bud'ko, SL, Buffon, MLC, Lin, X, Emmons, H, Canfield, PC
JournalJournal of Magnetism and Magnetic Materials
Volume358
Pagination212-227
Date Published05
Type of ArticleArticle
ISBN Number0304-8853
Accession NumberWOS:000332393500036
Keywordsanisotropic magnetization, earth rhodium borides, field, gadolinium compounds, heat, magnetic phase-diagram, magnetization, Metamagnetic transition, neutron-diffraction, Rare-earth compound, resistivity, Single crystal, Specific heat, susceptibility, tbco2ge2, temperature
Abstract

Single crystals of RCO2Ge2 (R=Y, La-Nd, Sm-Tm) were grown using a self flux method and were characterized by room temperature powder X-ray diffraction; anisotropic, temperature and field dependent magnetization; temperature and field dependent, in plane resistivity; and specific heat measurements. In this series, the majority of the moment bearing members order antiferromagnetically; YCO2Ge2 and LaCo2Ge2 are non-moment-bearing. Ce is trivalent in CeCo2Ge2 at high temperatures, and exhibits an enhanced electronic specific heat coefficient due to the Kondo effect at low temperatures. In addition, CeCo2Ge2 shows two low temperature anomalies in temperature dependent magnetization and specific heat measurements. Three members (R=Tb-Ho) have multiple phase transitions above 1.8 K. Eu appears to be divalent with total angular momentum L=0. Both EuCo2Ge2 and GclCo(2)Ge(2) manifest essentially isotropic paramagnetic properties consistent with J=S=7/12. Clear magnetic anisotropy for rare-earth members with finite L was observed, with ErCo2Ge2 and TrnCo(2)Ge(2) manifesting planar anisotropy and the rest members manifesting axial anisotropy. The experimentally estimated crystal electric field (CU) parameters.89 were calculated from the anisotropic paramagnetic 0,a, and 0, values and follow a trend that agrees well with theoretical predictions. The ordering temperatures, TN, as well as the polycrystalline averaged paramagnetic Curie-Weiss temperature, for the heavy rareearth members deviate from the de Gennes scaling, as the magnitude of both is the highest for Tb, which is sometimes seen for extremely axial systems. Except for SmCo2Ge2, metamagnetic transitions were observed at 1.8 K for all members that ordered antiferromagnetically. (C) 2014 Elsevier B.V. All rights reserved.

DOI10.1016/j.jmmm.2014.01.072
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