Frequency-tunable Quantum Dissipators

Chris Wilen; Clement Wong; Naveen Nehra; Ivan Pechenezhskiy; Alexander Opremcak; JJ Nelson; Caleb Howington; Britton Plourde; Maxim Vavilov; Robert McDermott

Frequency-tunable Quantum Dissipators

ORAL

Abstract

We describe the design and implementation of tunable dissipative modes based on lossy nonlinear resonators. When the dissipator is tuned into resonance with a weakly damped quantum mode, the weakly damped mode relaxes at a rate that is orders of magnitude faster than its intrinsic relaxation rate. We describe the optimal parameters for realization of the tunable dissipator, and we discuss device fabrication and characterization. We examine application of the dissipator to two problems in circuit quantum electrodynamics: spurious population of the qubit 1 state and dephasing from photon shot noise in the qubit readout resonator.

^*Supported by ARO under contract W911NF-14-1-0800.

March 15, 2017, 4:54 PM – March 15, 2017, 5:06 PM

Authors

Chris Wilen
- Univ of Wisconsin, Madison
Clement Wong
- Laboratory for Physical Sciences
- Laboratory for Physical Science
Naveen Nehra
- Univ of Wisconsin, Madison
Ivan Pechenezhskiy
- Univ of Wisconsin, Madison
Alexander Opremcak
- University of Wisconsin, Madison
- Univ of Wisconsin, Madison
JJ Nelson
- Syracuse University
Caleb Howington
- Syracuse University
Britton Plourde
- Syracuse University
Maxim Vavilov
- Univ of Wisconsin, Madison
- University of Wisconsin - Madison
- UW-Madison
Robert McDermott
- Univ of Wisconsin, Madison
- University of Wisconsin - Madison
- University of Wisconsin-Madison