Title :
First Results of the SRF Wafer Test Cavity for the Characterization of Superconductors
Author :
Pogue, Nathaniel J. ; Comeaux, Justin ; McIntyre, Peter ; Palczewski, Ari ; Reece, Charlie
Author_Institution :
Texas A&M Univ., College Station, TX, USA
Abstract :
The wafer test cavity was designed as a short sample test system that could create a reproducible environment for the testing of superconducting materials above the Bardeen-Cooper- Schrieffer limit of niobium. The results of the sapphire test cavity showed that the dielectric was too lossy, and thus, the original design had to be altered to make operation feasible with current hardware and achieve ~200 mT. The new design was fabricated at Thomas Jefferson National Accelerator Facility and was cryogenically tested. After four tests, the cavity was able to produce a 6.6-mT field with a Q of 3.96 * 108. Although lower than anticipated, in comparison to other TE01 cavities, this result is quite encouraging. Multipacting and coupling were limitations, but current work is pursuing the elimination of these complications. This document will expound upon the new design, mathematical simulations, testing of the cavity, complications, results, and future work.
Keywords :
BCS theory; dielectric losses; materials testing; sapphire; superconducting cavity resonators; Al2O3; Bardeen-Cooper- Schrieffer limit; SRF wafer test cavity; dielectric loaded cavity; electromagnetic design; mathematical simulations; sapphire test cavity; short sample test system; superconducting RF cavity; superconducting material testing; superconductor characterization; Cavity resonators; Couplers; Crystals; Dielectrics; Educational institutions; Seals; Testing; ${rm TE}_{01}$; Dielectric loaded; TE01; dielectric loaded; short sample; superconducting cavity; thin films;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2014.2362415
