Enhancement of superconductivity in thin aluminium films

Abstract

The results of superconductive tunneling measurements are presented, on very thin (35–80 Å) aluminium films which exhibit enhanced transition temperatures T_c up to 2.16 °K, and also exhibit a unique energy gap. Stability of the enhanced T_c films is attained by investigating the films in a vacuum; however, upon breaking vacuum, oxide growth occurs, and the tunneling barrier becomes impenetrable. The temperature dependence of the energy gap is BCS-like, and the BCS gap parameter 2Δ(O)/k_BT_c lies within experimental error of the usual BCS value of 3.528 for a weakly coupled superconductor. Existing theories of the enhancement of T_c are discussed in the light of present experimental evidence. However, it is found that none are capable of explaining reasonably the experimental data accumulated to date. It appears that all thin film systems reported to date as having shown an enhancement of T_c are basically the same. Electron microscope photomicrographs show that, structurally, the films are composed of crystallites having a wide range of sizes. Any new theory will have to contain a volume density of such crystallites as a key parameter in determining the enhanced T_c of the film.