The effects of weak localization and electron-electron interaction in the resistance of metallic glasses based on Zr at temperatures above the superconducting transition point

The temperature dependence of the resistance of superconducting metallic glasses Zr(x)Be(1-x) (x = 0.6, 0.7) and Zr75Rh25 is studied at temperatures above the superconducting transition temperature at H = 0 and in a longitudinal magnetic field at H = 7.4 T. The anomalous behavior of the resistance of metallic glasses can be described satisfactorily by the theory of weak electron localization and electron-electron interaction in three-dimensional disordered systems.