Error-detected three-photon hyperparallel Toffoli gate with
state-selective reflection
- URL: http://arxiv.org/abs/2206.07336v1
- Date: Wed, 15 Jun 2022 07:40:34 GMT
- Title: Error-detected three-photon hyperparallel Toffoli gate with
state-selective reflection
- Authors: Y. M. Wu, G. Fan and F. F. Du
- Abstract summary: We present an error-detected hyperparallel Toffoli (hyper-Toffoli) gate for a three-photon system based on the interface between polarized photon and cavity-nitrogen-vacancy(NV) center system.
This hyper-Toffoli gate can be used to perform double Toffoli gate operations simultaneously on both the polarization and spatial-mode degrees of freedom (DoFs) of a three-photon system.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: We present an error-detected hyperparallel Toffoli (hyper-Toffoli) gate for a
three-photon system based on the interface between polarized photon and
cavity-nitrogen-vacancy(NV) center system. This hyper-Toffoli gate can be used
to perform double Toffoli gate operations simultaneously on both the
polarization and spatial-mode degrees of freedom (DoFs) of a three-photon
system with a low decoherence, shorten operation time, and less quantum
resources required, in compared with those on two independent three-photon
systems in one DoF only. As the imperfect cavity-NV-center interactions are
transformed into the detectable failures rather than infidelity based on the
heralding mechanism of detectors, a near-unit fidelity of the quantum
hyper-Toffoli gate can be implemented. By recycling the procedures, the
efficiency of our protocol for the hyper-Toffoli gate is improved further.
Meanwhile, the evaluation of gate performance with achieved experiment
parameters shows that it is feasible with current experimental technology and
provides a promising building block for quantum compute.
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