Field-induced magnetic transitions in the quasi-two-dimensional heavy-fermion antiferromagnets CenRhIn3n+2 (n=1 or 2)

Abstract

We have measured the field-dependent heat capacity in the tetragonal antiferromagnets CeRhIn5 and Ce2RhIn8, both of which have an enhanced value of the electronic specific heat coefficient γ 400 mJ/mol-Ce K2 above TN. For T<TN, the specific heat data at zero applied magnetic field are consistent with the existence of an anisotropic spin-density wave opening a gap in the Fermi surface for CeRhIn5, while Ce2RhIn8 shows behavior consistent with a simple antiferromagnetic magnon. From these results, the magnetic structure, in a manner similar to the crystal structure, appears more two-dimensional in CeRhIn5 than in Ce2RhIn8 where only about 12% of the Fermi surface remains ungapped relative to 92% for Ce2RhIn8. When B||c, both compounds behave in a manner expected for heavy fermion systems as both TN and the electronic heat capacity decrease as field is applied. When the field is applied in the tetragonal basal plane (B||a), CeRhIn5 and Ce2RhIn8 have very similar phase diagrams which contain both first- and second-order field-induced magnetic transitions .

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