Superconductivity of tin isotopes
- 24 October 1951
- journal article
- research article
- Published by Cambridge University Press (CUP) in Mathematical Proceedings of the Cambridge Philosophical Society
- Vol. 47 (4) , 811-819
- https://doi.org/10.1017/s0305004100027250
Abstract
Detailed measurements have been made of the superconducting transition temperatures and critical magnetic fields of the tin isotopes of mass 116, 120 and 124. The transition temperature varies with isotopic mass according to the law Tc ∞ M−n, with n = 0·462 ± 0·014, a result very similar to that already found in mercury. The critical field curves of isotopes 116 and 124 are geometrically similar, in the sense that both many be represented by the same equation, Hc/Ho = f(T/Tc), with the same ratio Ho/Tc for both. It is deduced that the electronic specific heat in normal tin varies only slowly, if at all, with isotopic mass. The variation of Tc and Ho with M is very close to that predicted by Fröhlich and Bardeen.Keywords
This publication has 13 references indexed in Scilit:
- Superconductivity of Tin IsotopesNature, 1950
- Superconductivity of Tin IsotopesNature, 1950
- Theory of the Superconducting State. I. The Ground State at the Absolute Zero of TemperaturePhysical Review B, 1950
- Superconductivity ofPhysical Review B, 1950
- Superconductivity of Isotopes of MercuryPhysical Review B, 1950
- Isotope Effect in the Superconductivity of MercuryPhysical Review B, 1950
- Penetration of magnetic field into superconductors. II. Measurements by the Casimir methodProceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, 1949
- Tables of Vapour Pressure of Liquid HeliumNature, 1949
- Measurements of the atomic heats of tin in the superconductive and in the non-superconductive statePhysica, 1938
- On the disturbance of the superconductive state by a magnetic field; supplementary measurementsPhysica, 1937