Long-lived, radiation-suppressed superconducting quantum bit in a planar geometry

Abstract

We present a superconducting qubit design that is fabricated in a 2D geometry over a superconducting ground plane to enhance the lifetime. The qubit is coupled to a microstrip resonator for readout. The circuit is fabricated on a silicon substrate using low loss, stoichiometric titanium nitride for capacitor pads and small, shadow-evaporated aluminum/aluminum-oxide junctions. We observe qubit relaxation and coherence times (T1 and T2) of 11.7 0.2 μs and 8.7 0.3 μs, respectively. Calculations show that the proximity of the superconducting plane suppresses the otherwise high radiation loss of the qubit. A significant increase in T1 is projected for a reduced qubit-to-superconducting plane separation.