Magnetocrystalline Anisotropy and Magnetocaloric Effect Studies on the Room-temperature 2D Ferromagnetic Cr4Te5

Abstract

We present a thorough study on the magnetoanisotropic properties and magnetocaloric effect in the layered ferromagnetic Cr4Te5 single crystals by performing the critical behaviour analysis of magnetization isotherms. The critical exponents β=0.485(3), γ=1.202(5), and δ=3.52(3) with a Curie temperature of TC ≈ 340.73(4) K are determined by the modified Arrott plots. We observe a large magnetocrystalline anisotropy Ku=330 kJ/m3 at 3 K which gradually decreases with increasing temperature. Maximum entropy change - SMmax and the relative cooling power (RCP) are found to be 2.77 J/kg-K and 88.29 J/kg, respectively near TC when the magnetic field applied parallel to ab-plane. Rescaled - SM (T, H) data measured at various temperatures and fields collapse into a single universal curve, confirming the second order magnetic transition in this system. Following the renormalization group theory analysis, we find that the spin-coupling is of 3D Heisenberg-type, \d:n\=\3:3\, with long-range exchange interactions decaying as J (r) = r-(d+σ)= r-4.71.