Patent · US Active

Periodical modulation of longitudinal coupling strength for quantum non-demolition qubit readout

US10013657B2 · kind B2 · utility

7Cited by

3References

20Claims

0Family size

Assignee

SOCPRA SCIENCES ET GENIE S.E.C. · CA

Inventors

Jerome Bourassa · Sherbrooke, CA
Alexandre Blais · New Haven, US
Nicloas Didier · Paris, FR

Key dates

Filing date	Mar 9, 2017
Grant date	Jul 3, 2018
Priority date	—
Expiry date	Mar 9, 2037

Classification

Technology area (CPC H)Electricity
CPC primaryH10N60/805
WIPO fieldComputer technology
WIPO sectorElectrical engineering

Abstract

Method and circuit for reading a value {circumflex over (σ)}z stored in a quantum information unit (qubit) memory having a qubit frequency ωa, with a resonator defined by a resonator damping rate κ, a resonator frequency ωr, a resonator electromagnetic field characterized by â† and â, a longitudinal coupling strength gz, an output âout and a longitudinal coupling gz{circumflex over (σ)}z(â†+â). At a quantum non-demolition (QND) longitudinal modulator, periodically modulating the longitudinal coupling strength gz with a signal of amplitude {tilde over (g)}z at least three (3) times greater than the resonator damping rate κ and of frequency ωm with ωm+κ resonant with ωr, wherein the longitudinal coupling strength gz varies over time (t) in accordance with gz(t)=gz+{tilde over (g)}z cos(ωmt) with gz representing an average value of gz and at a QND homodyne detector, measuring the value {circumflex over (σ)}z of the qubit memory from a phase reading of the output {circumflex over (σ)}out.

Source: USPTO / EPO open patent data. Objective bibliographic and citation counts.