Zum Kondo-Effekt in Zink-Mangan: Der Einfluß der Manganverteilung auf den elektrischen Widerstand im Temperaturbereich bis 0,4 °K

Abstract

The electrical resistivity of dilute Zn-Mn alloys (c=0–0.6 at% Mn) has been measured in a temperature range from room temperature (RT) down to 0.4 °K. Three different series of samples are investigated: 1. annealed 72 h, 400 °C, 2. annealed and aged 1 year atRT, 3. coldworked atRT. All samples show a minimum in the residual resistance atT _min∝c ^1/5 followed by an increase of the resistivityρ∝k _s · lnT (Kondo-effect). For some alloys the resistivity minimum is followed by a resistivity maximum atT _max.T _max mainly depends on the distribution of the Mnatoms in the Zn-matrix. The coefficientk _s is also strongly influenced by changes of the Mn-distribution. For alloys withc>0.02 at% (max. solubility of Mn in Zn atRT) the slopek _s =∂ρ/∂ lnT decreases with increasing degree of precipitation of the manganese. Samples withc<0.02 at% however, show the opposite effect, increasingk _s with increasing Mn-precipitation. Moreover, during the aging process, we observe an increase in the “residual resistance” (resistance ratioR _T/R ₂₉₃ atT _min) for these alloys. The effect can be explained by assuming that the precipitation leads to the formation of superparamagnetic clusters.