Features of temperature dependences electrical resistance of Bi88.08Mn11.92 in magnetic fields

The temperature dependences of the electrical resistance of the solid solution of B i 88.08 M n 11.92 in the temperature range of 2–300 K and magnetic fields up to 90 kOe for both H ⊥ I and H || I are studied. It has been shown that in a magnetic field, the temperature dependences of the electrical resistance of B i 88.08 M n 11.92 show maxima (insulator–metal transition) for both the H ⊥ I and H || I orientations. The temperatures of the maxima increase with increasing field. The appearance of a noticeable difference between the temperature dependences of the electrical resistances of B i 88.08 M n 11.92 and the compound B i 95.69 M n 3.69 F e 0.62 with a lower Mn content and pure Bi is discussed. It has been established that the magnetoresistance of B i 88.08 M n 11.92 is positive over the entire temperature range studied and reaches a value of 3290% in a magnetic field of 90 kOe for H ⊥ I, which is approximately 400% higher than in the B i 95.69 M n 3.69 F e 0.62 compound with lower Mn content. A suggestion has been made that the peculiarities temperature dependences behavior of the electrical resistance of B i 88.08 M n 11.92 without a magnetic field and in the field, are largely due to the influence of internal magnetism of the α-BiMn phase and can be explained within the framework of the multiband theory.