Frequency and sensitivity tunable microresonator array for high-speed quantum processor readout

Emile Hoskinson; J. D. Whittaker; L. J. Swenson; M. H. Volkmann; P. Spear; F. Altomare; A. J. Berkley; B. Bumble; P. Bunyk; P. K. Day; B. H. Eom; R. Harris; J. P. Hilton; M. W. Johnson; A. Kleinsasser; E. Ladizinsky; T. Lanting; T. Oh; I. Perminov; E. Tolkacheva; J. Yao

Frequency and sensitivity tunable microresonator array for high-speed quantum processor readout

ORAL

Abstract

Frequency multiplexed arrays of superconducting microresonators have been used as detectors in a variety of applications. The degree of multiplexing achievable is limited by fabrication variation causing non-uniform shifts in resonator frequencies. We have designed, implemented and characterized a superconducting microresonator readout that incorporates two tunable inductances per detector, allowing independent control of each detector frequency and sensitivity. The tunable inductances are adjusted using on-chip programmable digital-to-analog flux converters, which are programmed with a scalable addressing scheme that requires few external lines.

March 17, 2016, 3:54 PM – March 17, 2016, 4:06 PM

Authors

Emile Hoskinson
- D-Wave Systems
J. D. Whittaker
- D-Wave Systems
L. J. Swenson
- D-Wave Systems
M. H. Volkmann
- D-Wave Systems
P. Spear
- D-Wave Systems
F. Altomare
- D-Wave Systems
A. J. Berkley
- D-Wave Systems
B. Bumble
- Jet Propulsion Laboratory
P. Bunyk
- D-Wave Systems
P. K. Day
- Jet Propulsion Laboratory
B. H. Eom
- Jet Propulsion Laboratory
R. Harris
- D-Wave Systems
J. P. Hilton
- D-Wave Systems
M. W. Johnson
- D-Wave Systems
A. Kleinsasser
- Jet Propulsion Laboratory
E. Ladizinsky
- D-Wave Systems
T. Lanting
- D-Wave Systems
T. Oh
- D-Wave Systems
I. Perminov
- D-Wave Systems
E. Tolkacheva
- D-Wave Systems
J. Yao
- D-Wave Systems