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Flexible learning of quantum states with generative query neural networks

Yan Zhu, Yadong Wu, Ge Bai, Dongsheng Wang, Yuexuan Wang, Giulio Chiribella

2022Nature Communications29 citationsDOIOpen Access PDF

Abstract

Deep neural networks are a powerful tool for characterizing quantum states. Existing networks are typically trained with experimental data gathered from the quantum state that needs to be characterized. But is it possible to train a neural network offline, on a different set of states? Here we introduce a network that can be trained with classically simulated data from a fiducial set of states and measurements, and can later be used to characterize quantum states that share structural similarities with the fiducial states. With little guidance of quantum physics, the network builds its own data-driven representation of a quantum state, and then uses it to predict the outcome statistics of quantum measurements that have not been performed yet. The state representations produced by the network can also be used for tasks beyond the prediction of outcome statistics, including clustering of quantum states and identification of different phases of matter.

Topics & Concepts

Computer scienceQuantum stateArtificial neural networkQuantumSet (abstract data type)Generative modelCluster analysisRepresentation (politics)Artificial intelligenceMachine learningTheoretical computer sciencePhysicsGenerative grammarQuantum mechanicsPolitical scienceProgramming languagePoliticsLawQuantum many-body systemsQuantum Computing Algorithms and ArchitectureQuantum Information and Cryptography
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