Author: Atroshchenko Konstantin ; Type of thesis: Master Thesis
Abstract: International Committee for Future Accelerators recommended that the Linear Collider design has to be based on the superconducting technology. And this is the reason why the international scientific society directed efforts to improving superconductive technology and reducing its cost.
In this work, in the framework of researching a valid alternative to Nb for RF superconducting cavities, thin film Nb3Sn has been investigated. The goal will be the achievement of superconducting cavities working better than the Nb ones at 4.2 K.
In order to improve the existing technology of substrates coating by thermally diffused Nb3Sn a new high temperature annealing technology has been developed. In the first part of the work, is given the short theoretical review of RF superconductivity, main superconductors that are used to be a good alternative to a pure Nb and fundamentals of the induction heating theory. Second part is dedicated to the existing double furnace technology, developed in the superconductivity lab in LNL. The influence of preliminary surface treatments like glow discharge of the sample, anodization and chemical etching on the quality of thermally diffused Nb3Sn was studied. And in the third part is given the description of the new induction heating system, suggested for annealing of the 6 GHz cavities. Also in the third part we will go through the results of coating samples and cavities with thermally diffused Nb3Sn with high temperature annealing and the results of the RF – test.
Finally, it is important to mention, that from the very beginning of investigation the induction heating for annealing 6 GHz cavities it became clear that the technology has an enormous potential in producing thermally diffused Nb3Sn.