A photon capture approach to Josephson photomultiplier-based qubit measurement

Alexander Opremcak; Ivan Pechenezhskiy; Caleb Howington; Chris Wilen; Matthew Beck; Edward Leonard Jr.; Konstantin Nesterov; Maxim Vavilov; Britton Plourde; Robert McDermott

A photon capture approach to Josephson photomultiplier-based qubit measurement

ORAL

Abstract

Scalable high-fidelity qubit measurement is essential to the realization of a fault tolerant quantum processor. Here we outline a new approach whereby microwave pointers states are transferred between a dispersively coupled qubit readout resonator and an auxiliary resonator that is probed by a Josephson photomultplier (JPM). We describe the design, fabrication, and characterization of the JPM chips and discuss experiments to benchmark qubit measurement fidelity. These efforts are an intermediate step towards interfacing superconducting qubit circuits with Single Flux Quantum (SFQ) digital logic in order to reduce room temperature hardware overhead and latency of classical post-processing.

March 14, 2017, 10:48 AM – March 14, 2017, 11:00 AM

Authors

Alexander Opremcak
- University of Wisconsin, Madison
- Univ of Wisconsin, Madison
Ivan Pechenezhskiy
- Univ of Wisconsin, Madison
Caleb Howington
- Syracuse University
Chris Wilen
- Univ of Wisconsin, Madison
Matthew Beck
- Univ of Wisconsin, Madison
- University of Wisconsin - Madison
Edward Leonard Jr.
- Univ of Wisconsin, Madison
Konstantin Nesterov
- Univ of Wisconsin, Madison
Maxim Vavilov
- Univ of Wisconsin, Madison
- University of Wisconsin - Madison
- UW-Madison
Britton Plourde
- Syracuse University
Robert McDermott
- Univ of Wisconsin, Madison
- University of Wisconsin - Madison
- University of Wisconsin-Madison