Abstract
THE low temperatures produced by adiabatic demagnetization of potassium chrome alum have been used to cool various pure metals to about 0.1° K.; a copper rod was used for providing thermal contact between the metal and the salt1. The occurrence of any superconducting transition in the metal was indicated by a change in the magnetic susceptibility of the metal in an alternating field. Superconductivity was observed in osmium and ruthenium with transition temperatures of 0.71° K. and 0.47° K. respectively. A superconducting transition in ruthenium at 2.04° K. was previously reported by McLennan, Allen and Wilhelm2, but their specimen had a high residual resistance; and since no transition was observed by Meissner and Voigt3 down to 1.2° K. in a specimen with much lower residual resistance, it is probable that the high transition temperature was associated with impurity. The critical magnetic fields were found to satisfy the relation Hc = Ho (1 – (T/Tc)2); the values of Ho and Tc are compared in the accompanying table with recent measurements by Goodman and Mendoza4 on a number of other elements with low transition termperatures. The values for aluminium and zinc differ only slightly from those found by Daunt and Heer5.
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