PC2: Identifying noise processes in superconducting resonators

Author

Burnett, Jack ; Lindstrom, T. ; Wisby, I. ; de Graaf, Sebastian ; Adamyan, A. ; Danilov, A.V. ; Kubatkin, S. ; Meeson, P.J. ; Tzalenchuk, A.Ya.

Author_Institution

Nat. Phys. Lab., Teddington, UK

fYear

2013

fDate

7-11 July 2013

Firstpage

1

Lastpage

3

Abstract

Extensive studies of dielectric loss due to two level fluctuators (TLFs) in superconducting resonators have provided routes for low loss resonators. The research is motivated not only by the use of resonators as detectors and in quantum information processing, but more generally due to TLFs being a source of noise and decoherence in all quantum devices. In this work a frequency locked loop was used to measure frequency fluctuations at timescales in excess of 104 seconds, thereby accurately probing the TLF induced low- frequency noise of the resonator. Our measurement method lead to very high statistical confidence even for very long timescales, and here we can therefore present results explicitly identifying power dependent flicker frequency noise (S = 1/f^a where a=1) persisting down to the mHz level.

Keywords

dielectric losses; flicker noise; statistical analysis; superconducting resonators; PC2; TLF; dielectric loss; frequency locked loop; low loss resonator; low-frequency noise; noise process; power dependent flicker frequency noise; quantum device; statistical confidence; superconducting resonator; two level fluctuator; Resonant frequency; 1/f noise; Two level fluctuators; superconducting device;

fLanguage

English

Publisher

ieee

Conference_Titel

Superconductive Electronics Conference (ISEC), 2013 IEEE 14th International

Conference_Location

Cambridge, MA

Print_ISBN

978-1-4673-6369-3

Type

conf

DOI

10.1109/ISEC.2013.6604284

Filename

6604284