Coherent control of a linear microwave cavity via single flux quantum pulses

Shaojiang Zhu; Guilhem Ribeill; Ted Thorbeck; Edward Leonard; Maxim Vavilov; Britton Plourde; Robert McDermott

Coherent control of a linear microwave cavity via single flux quantum pulses

ORAL

Abstract

Classical Josephson digital logic based on single flux quantum (SFQ) pulses offers a path to robust, low-latency control of a large-scale quantum processor. Here we describe the coherent control of a linear superconducting cavity by direct excitation via SFQ pulses. Resonant trains of SFQ pulses are capacitively coupled to a thin-film coplanar waveguide cavity. We examine the resulting cavity states as a function of subharmonic drive and temperature. In addition, we describe first steps toward the coherent control of a superconducting qubit with SFQ pulses.

March 18, 2016, 10:36 AM – March 18, 2016, 10:48 AM

Authors

Shaojiang Zhu
- Department of Physics, University of Wisconsin Madison
Guilhem Ribeill
- Department of Physics, University of Wisconsin Madison
Ted Thorbeck
- Department of Physics, University of Wisconsin Madison
Edward Leonard
- Department of Physics, University of Wisconsin Madison
Maxim Vavilov
- Department of Physics, University of Wisconsin Madison
Britton Plourde
- Department of Physics, Syracuse University
Robert McDermott
- Department of Physics, University of Wisconsin Madison