Superconducting Resonators with Parasitic Electromagnetic Environments

Abstract

Parasitic electromagnetic fields are shown to strongly suppress the quality (Q)-factor of superconducting coplanar waveguide resonators via non-local dissipation in the macroscopic environment. Numerical simulation and low temperature measurements demonstrate how this parasitic loss can be reduced, establishing a Lorentzian lineshape in the resonator frequency response and yielding a loaded Q-factor of 2.4 x 105 for niobium devices on sapphire substrates. In addition, we report the dependence of the Q and resonance frequency shift Delta f0 with input power and temperature in the limit where loss from two-level systems in the dielectric dominate.