Superconducting properties of commercially available solders for low-field applications
Abstract
Solders with superconducting properties around 4\, K are useful in low magnetic field environments for AC current leads or in electrical and mechanical bonds. Accurate knowledge of these properties are needed in high precision experiments. We have measured the electrical resistance of five commercially-available solders: 50\%Sn-50\%Pb, 60\%Sn-40\%Pb, 60\%Sn-40\%Pb-0.3\%Sb, 52\%In-48\%Sn, and 96.5\%Sn-3.5\%Ag, down to 2.3\, K and in applied magnetic fields from 0 to 0.1\, T. Their critical temperatures Tc and critical fields Bc were extracted in our analysis, taking into account the observed 90\%-to-10\% transition widths. Our best candidate for low-loss AC current leads in low fields is 50\%Sn-50\%Pb, which had zero-field Tc,0 = (7.1 0.3)\, K, and remained high to Tc(B=0.1\, T) = (6.9 0.3) \, K. We report Tc and Bc of 60\%Sn-40\%Pb-0.3\%Sb and Bc,0 of 96.5\%Sn-3.5\%Ag for the first time. Our Tc,0= (3.31 0.04)\, K for 96.5\%Sn-3.5\%Ag disagrees with a widely adopted value.
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