Josephson parametric converter saturation and higher order effects
Abstract
Microwave parametric amplifiers based on Josephson junctions have become indispensable components of many quantum information experiments. One key limitation which has not been well predicted by theory is the gain saturation behavior which limits the amplifier's ability to process large amplitude signals. The typical explanation for this behavior in phase-preserving amplifiers based on three-wave mixing, such as the Josephson Parametric Converter, is pump depletion, in which the consumption of pump photons to produce amplification results in a reduction in gain. However, in this work, we present experimental data and theoretical calculations showing that the fourth-order Kerr nonlinearities inherent in Josephson junctions are the dominant factor. The Kerr-based theory has the unusual property of causing saturation to both lower and higher gains, depending on bias conditions. This work presents an efficient methodology for optimizing device performance in the presence of Kerr nonlinearities while retaining device tunability and points to the necessity of controlling higher-order Hamiltonian terms to make further improvements in parametric devices.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Nov 13, 2017
- Source ID
- 10.1063/1.5003032
Entities
People
- D. Pekker
- E. Alpern
- G. Liu
- M. Hatridge
- O. Lanes
- T.-c. Chien
- Xuelin Cao
Organizations
- Army Research Office
- University of Pittsburgh