Temperature Mapping on a Niobium-Coated Copper Superconducting Radio-Frequency Cavity

Abstract

Since the late '80s, CERN has pioneered the development of niobium thin film radio-frequency (RF) cavities deposited on copper substrates for several particle accelerator applications. However, niobium thin film cavities historically feature a progressive performance degradation as the accelerating field increases. In this study, we describe a temperature mapping system based on contact thermometry, specially designed to obtain temperature maps of niobium-coated copper cavities and, consequently, study the mechanisms responsible for performance degradation. The first temperature maps on a niobium/copper 1.3 GHz cavity are reported along with its RF performance. In addition to some hotspots displayed in the temperature maps, we surprisingly observed a wide cold area on the outer cavity surface that may shed new light on understanding the heat dissipation of niobium thin film cavities in liquid helium, which might be exploited to improve the RF cavity performance.