Specific features of the magnetic-field dependences of electrical resistivity in Bi--Mn solid solutions with low Mn content

Abstract

For the first time, the field dependences of the magnetoresistance of a textured polycrystalline Bi88.08Mn11.92 sample were investigated in the H I and H I configurations, and the results were compared with those previously obtained for the solid solution Bi95.69Mn3.69Fe0.62 with a lower manganese concentration. It was demonstrated that the magnetoresistance field dependencies for Bi88.08Mn11.92 differ significantly from those of Bi95.69Mn3.69Fe0.62 below 100 K, becoming nearly identical as the temperature approaches room temperature. It was established that the maximum relative magnetoresistance values for Bi88.08Mn11.92 are observed at a magnetic field of 90 kOe and a temperature of 100 K in both the H I and H I configurations, amounting to 3170\% and 380\%, respectively. These values are significantly lower than those previously reported for the solid solution containing less manganese (Bi95.69Mn3.69Fe0.62), which were 3877\% and 742\%, respectively. Analysis of the results indicates that differences in field dependence among the studied materials are associated with varying amounts of magnetic α-BiMn. The anomalous magnetoresistance behavior, as compared with that of pure bismuth, is attributed to the influence of internal magnetism on electrical transport within the bismuth matrix of the studied solid solutions.