Journal article

Atomic delocalization as a microscopic origin of two-level defects in Josephson junctions

TC Dubois, SP Russo, JH Cole

New Journal of Physics | IOP Publishing Ltd | Published : 2015

Open access

Abstract

Identifying the microscopic origins of decoherence sources prevalent in Josephson junction (JJ) based circuits is central to their use as functional quantum devices. Focussing on so called 'strongly coupled' two-level defects, we construct a theoretical model using the atomic position of the oxygen which is spatially delocalized in the oxide forming the JJ barrier. Using this model, we investigate which atomic configurations give rise to two-level behaviour of the type seen in experiments. We compute experimentally observable parameters for phase qubits and examine defect response under the effects of applied electric field and strain.

University of Melbourne Researchers

Grants

Awarded by Australian Research Council


Funding Acknowledgements

This research was supported under the Australian Research Council's Discovery Projects funding scheme (project number DP140100375). Computational resources were provided at the NCI National Facility systems at the Australian National University through the National Computational Merit Allocation Scheme supported by the Australian Government.