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@article {Royereaau1695,
author = {Baptiste Royer, Shruti Puri and Alexandre Blais},
title = {Qubit parity measurement by parametric driving in circuit QED},
volume = {4},
number = {11},
elocation-id = {eaau1695},
year = {2018},
doi = {10.1126/sciadv.aau1695},
publisher = {American Association for the Advancement of Science},
abstract = {Multiqubit parity measurements are essential to quantum error correction. Current realizations of these measurements often rely on ancilla qubits, a method that is sensitive to faulty two-qubit gates and that requires notable experimental overhead. We propose a hardware-efficient multiqubit parity measurement exploiting the bifurcation dynamics of a parametrically driven nonlinear oscillator. This approach takes advantage of the resonator{\textquoteright}s parametric oscillation threshold, which depends on the joint parity of dispersively coupled qubits, leading to high-amplitude oscillations for one parity subspace and no oscillation for the other. We present analytical and numerical results for two- and four-qubit parity measurements, with high-fidelity readout preserving the parity eigenpaces. Moreover, we discuss a possible realization that can be readily implemented with the current circuit quantum electrodynamics (QED) experimental toolbox. These results could lead to substantial simplifications in the experimental implementation of quantum error correction and notably of the surface code.},
URL = {http://advances.sciencemag.org/content/4/11/eaau1695},
eprint = {http://advances.sciencemag.org/content/4/11/eaau1695.full.pdf},
journal = {Science Advances},
local-url={parityparametric.pdf}}