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Literature DB >> 32302195

Quantum Autoencoders to Denoise Quantum Data.

Abstract

Entangled states are an important resource for quantum computation, communication, metrology, and the simulation of many-body systems. However, noise limits the experimental preparation of such states. Classical data can be efficiently denoised by autoencoders-neural networks trained in unsupervised manner. We develop a novel quantum autoencoder that successfully denoises Greenberger-Horne-Zeilinger, W, Dicke, and cluster states subject to spin-flip errors and random unitary noise. Various emergent quantum technologies could benefit from the proposed unsupervised quantum neural networks.

Year: 2020 PMID： 32302195 DOI： 10.1103/PhysRevLett.124.130502

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

4 in total

1. Realizing quantum convolutional neural networks on a superconducting quantum processor to recognize quantum phases.

Authors: Johannes Herrmann; Sergi Masot Llima; Ants Remm; Petr Zapletal; Nathan A McMahon; Colin Scarato; François Swiadek; Christian Kraglund Andersen; Christoph Hellings; Sebastian Krinner; Nathan Lacroix; Stefania Lazar; Michael Kerschbaum; Dante Colao Zanuz; Graham J Norris; Michael J Hartmann; Andreas Wallraff; Christopher Eichler
Journal: Nat Commun Date: 2022-07-16 Impact factor: 17.694

Quantum Autoencoders to Denoise Quantum Data.

1. Realizing quantum convolutional neural networks on a superconducting quantum processor to recognize quantum phases.

2. Neural network-based prediction of the secret-key rate of quantum key distribution.

3. Machine-Learning Microstructure for Inverse Material Design.

4. Experimental Quantum Advantage with Quantum Coupon Collector.