Abstract
The SmNi3-x Fe (x) (x = 0; 0.3 and 0.8) were synthesized by arc melting and annealed at 1073 K for 1 week. The Rietveld refinement showed that these compounds crystallize in the PuNi3-type structure (-Space group) and the substitution of nickel by iron leads to an increase of the unit cell volume. The Curie temperature (T (C) ) of the SmNi3-x Fe (x) (x = 0; 0.3 and 0.8) samples increases from 60 K for SmNi3 to 230 K for SmNi2.2Fe0.8, the enhancement of T (C) is ruled by electronic and magnetovolumic effects. All the samples exhibit a second-order magnetic phase transition at Curie temperature T (C) . The magnetic entropy change Delta S (M) was estimated from isothermal magnetization curves and it decreases with the increase of Fe content from 2.3 J/kg.K (x = 0) to 0.6 J/kg.K (x = 0.8) at 50 kOe. The critical properties of SmNi2.7Fe0.3 (as an example) intermetallic compound at the ferromagnetic-paramagnetic (FM-PM) transition have been analyzed. The estimated critical exponents derived from the magnetic data using various methods such as modified Arrott plot, Kouvel-Fisher method and critical magnetization isotherms M(T (C) , H). The critical exponent values for the material are in a close agreement with those predicted for the mean-field theory. The reason for this behavior may be long-range interactions between spins in this system.