Controlling Tc of Iridium films using interfacial proximity effects

Abstract

High precision calorimetry using superconducting transition edge sensors requires the use of superconducting films with a suitable Tc, depending on the application. To advance high-precision macrocalorimetry, we require low-Tc films that are easy to fabricate. A simple and effective way to suppress Tc of superconducting Iridium through the proximity effect is demonstrated by using Ir/Pt bilayers as well as Au/Ir/Au trilayers. While Ir/Au films fabricated by applying heat to the substrate during Ir deposition have been used in the past for superconducting sensors, we present results of Tc suppression on Iridium by deposition at room temperature in Au/Ir/Au trilayers and Ir/Pt bilayers in the range of 20-100~mK. Measurements of the relative impedance between the Ir/Pt bilayers and Au/Ir/Au trilayers fabricated show factor of 10 higher values in the Ir/Pt case. These new films could play a key role in the development of scalable superconducting transition edge sensors that require low-Tc films to minimize heat capacity and maximize energy resolution, while keeping high-yield fabrication methods.