Abstract
In this work the results of measurements of high field susceptibility, paraprocess susceptibility and thermal properties of R(Co1−хFeх)2 intermetallic compounds (R=Dy, Ho, Er and x=(0−0.16)) are presented (heat capacity and magnetocaloric effect (MCE)). A magnetic structure of the Ho(Co0.88Fe0.12)2 at 293K and 78K was studied by neutron powder diffraction. Some peculiarities of a high-field susceptibility were revealed at low temperatures and around the Curie point (TC). In temperature range lower than TC by (100–150)K, magnetic contributions to a zero-field heat capacity were found. Studying MCE in wide temperatures range, the large change of the entropy magnetic contribution (∆S) was observed which correlates with ∆T phenomenon. In particular, for the Er(Co0.84Fe0.16)2 compound the ∆S value at low temperatures is six times higher than that at Curie point. The possible reasons of such behavior were discussed.
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