Magnetic Field Effects on High Quality Factor Superconducting Coplanar Resonators

Anthony Megrant; Charles Neill; Rami Barends; Yu Chen; Ben Chiaro; Julian Kelly; Matteo Mariantoni; Josh Mutus; Peter O'Malley; Daniel Sank; Amit Vainsencher; James Wenner; Ted White; David Low; Shinobu Ohya; Christopher Palmstrom; John Martinis; Andrew Cleland

Magnetic Field Effects on High Quality Factor Superconducting Coplanar Resonators

ORAL

Abstract

Superconducting coplanar waveguide resonators have proven to be invaluable tools in studying some of the same decoherence mechanisms as those found in superconducting qubits. Prior improvements in fabrication led to resonator internal quality factors (Qi's) in excess of 10 million at high power, enabling us to sensitively probe environmental effects on the resonance frequency and Qi. We have found these resonators to be very susceptible to applied and stray magnetic fields, with measurable changes in the resonator's Qi and resonance frequency from fields as small as a few milligauss. I will present more recent measurements of resonators in magnetic fields.

March 18, 2013, 8:48 AM – March 18, 2013, 9:00 AM

Authors

Anthony Megrant
- UC Santa Barbara
Charles Neill
- UC Santa Barbara
Rami Barends
- UC Santa Barbara
Yu Chen
- UC Santa Barbara
Ben Chiaro
- UC Santa Barbara
Julian Kelly
- UC Santa Barbara
Matteo Mariantoni
- UC Santa Barbara
Josh Mutus
- UC Santa Barbara
Peter O'Malley
- UC Santa Barbara
Daniel Sank
- UC Santa Barbara
Amit Vainsencher
- UC Santa Barbara
James Wenner
- UC Santa Barbara
Ted White
- UC Santa Barbara
David Low
- UC Santa Barbara
Shinobu Ohya
- UC Santa Barbara
Christopher Palmstrom
- UC Santa Barbara
John Martinis
- UC Santa Barbara
Andrew Cleland
- UC Santa Barbara