Magnetic properties of CdxZnyMnzTe alloys

Abstract

Low‐field measurements of magnetic susceptibility χ have been made as a function of temperature in the range 4–150 K on polycrystalline samples of the alloy system Cd_xZn_yMn_zTe (x+y+z=1). Values of T_g, the spin‐glass transition temperature, have been obtained from the cusp in the χ vs T curves and values of the Curie‐Weiss θ obtained by extrapolation of the 1/χ vs T line at the higher temperatures. When the various values of T_g vs composition are fitted to a straight line they all extrapolate to a percolation limit of 0.18±0.01. However, it is shown that the plot proposed by Escorne et al. of ln T_g vs az^−1/3, where a is the lattice parameter, also gives a straight line variation within the limits of experimental error. This indicates that for z≤0.2, the variation of T_g with z must deviate from linearity. The extrapolated value of 0.18±0.01 is attributed to nearest neighbors only and for z≤0.2 more distant neighbors become relatively more important. For both the T_g vs z and ln T_g vs az^−1/3, a change in slope occurs at z≊0.6. This probably represents the change from spin glass to antiferromagnetic behavior and may be due to an additional exchange effect becoming important.