Superconducting Studies in A-15 Pseudo-Binary Systems

Abstract

Superconductivity studies have been performed on some A‐15 pseudo‐binary systems to determine whether low‐temperature annealing, conducive to atomic ordering, will markedly raise the superconducting transition temperature. The following systems were examined for this behavior: Nb₃Ge–Nb₃Al, Nb₃Sn–Nb₃Al, and Nb₃Ga–Nb₃Al. Greater attention was devoted to the Nb–Al–Ge system in view of the recent observation of superconductivity above 20°K in this system. We have also observed transition temperatures approaching 20°K in nearly single phase samples of Nb–Al–Ge after low‐temperature heat treatment at 700° and 800°C. It is suggested that crystallographic long‐range ordering is responsible for the high T_c's observed in this system. Attempts to confirm this hypothesis by determining the degree of long‐range order were unsuccessful. The other A‐15 systems which we investigated also exhibited an increase of T_c with low‐temperature heat treatment; however, none exceeded 18°K.