First results of 2D superconducting quantum device coherence fabricated via innovative materials, substrate and passivation techniques

The past two decades has witnessed incredible enhancement of coherence time in superconducting quantum devices (SQDs). Much of this progress has been accomplished by optimization of device design and geometry. It has become clear that addressing the quality of superconducting films and interfaces in planar SQDs is of utmost importance to further improve coherence times beyond millisecond timescale. In this contribution we report the first results of superconducting transmission line resonators and transmon qubit devices fabricated at the SQMS Center (at the Pritzker nanofabrication facility at University of Chicago). A systematic investigation based on materials findings is pursued which addresses TLS losses introduced by amorphous interfaces and other new loss mechanisms which have been found recently with SQMS materials investigations [1-3] This material is based upon work supported by the U.S. Department of Energy, Office of Science, National Quantum Information Science Research Centers, Superconducting Quantum Materials and Systems Center (SQMS) under contract number DE-AC02-07CH11359.

[1] Akshay A. Murthy et al, arXiv:2108.13539

[2] Mattia Checchin et al, arXiv:2108.08894

[3] Jaeyel Lee et al, arXiv:2108.10385