Low Tc Hafnium Kinetic Inductance Device with High Internal Quality Factor
Abstract
Kinetic inductance devices (KIDs) are superconducting resonators with high kinetic inductance sensitive to external energy perturbations. KIDs made with superconductors having Tc far below one Kelvin are of particular interest for sensing minuscule signals, such as light dark matter detection and millimeter wave telescopes for astronomy and cosmology. In this work, we report the promising performance of KIDs fabricated with Hafnium from heated sputter depositions. The KIDs have Tc lower than 2492 mK, the internal quality factor (Qi) of the resonators exceeds 105 and the temperature dependence of the resonances can be described by the generalized Mattis-Bardeen model with a disorder parameter =4×10-30. Post-fabrication annealing at temperatures above the deposition temperature can further reduce the Tc and without reducing Qi, leading to improvements in energy resolution.
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