# Continuous-time Quantum Error Correction with Noise-assisted Quantum   Feedback

**Authors:** Gerardo Cardona, Alain Sarlette, Pierre Rouchon

arXiv: 1902.00115 · 2019-06-18

## TL;DR

This paper introduces a novel continuous-time quantum error correction method using noise-assisted feedback with Brownian motion controls, achieving exponential stabilization of quantum states and improving robustness against disturbances.

## Contribution

It proposes a new continuous-time feedback control approach with Brownian motion to stabilize quantum states, overcoming limitations of previous methods with spurious equilibria.

## Key findings

- Exponential stabilization of the target quantum manifold.
- Effective noise-assisted feedback control demonstrated.
- Reduced-order filter formulation validated numerically.

## Abstract

We address the standard quantum error correction using the three-qubit bit-flip code, yet in continuous-time. This entails rendering a target manifold of quantum states globally attractive. Previous feedback designs could feature spurious equilibria, or resort to discrete kicks pushing the system away from these equilibria to ensure global asymptotic stability. We present a new approach that consists of introducing controls driven by Brownian motions. Unlike the previous methods, the resulting closed-loop dynamics can be shown to stabilize the target manifold exponentially. We further present a reduced-order filter formulation with classical probabilities. The exponential property is important to quantify the protection induced by the closed-loop error-correction dynamics against disturbances. We study numerically the performance of this control law and of the reduced filter.

## Full text

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## Figures

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## References

15 references — full list in the complete paper: https://tomesphere.com/paper/1902.00115/full.md

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Source: https://tomesphere.com/paper/1902.00115