Flexible learning of quantum states with generative query neural | ResearchBunny

Index

Abstract

This paper introduces a new neural network, GQNQ, capable of learning multiple quantum states from classically simulated data. Unlike existing networks trained on experimental data from the specific quantum state to be characterized, GQNQ can be trained offline on a fiducial set of states and measurements and then used to characterize other states with structural similarities. The network builds its own data-driven representation of a quantum state and uses it to predict outcome statistics of unperformed measurements. The generated state representations are also applicable to quantum state clustering and the identification of different phases of matter.

Publisher

Nature Communications

Published On

Oct 20, 2022

Authors

Yan Zhu, Ya-Dong Wu, Ge Bai, Dong-Sheng Wang, Yuexuan Wang, Giulio Chiribella

Related Publications

Explore these studies to deepen your understanding of the subject.

Medicine and Health

In vivo imaging of phosphocreatine with artificial neural networks

L. Chen, M. Schär, et al.

Earth Sciences

Early forecasting of tsunami inundation from tsunami and geodetic observation data with convolutional neural networks

F. Makinoshima, Y. Oishi, et al.

Physics

Experimental observation of chimera states in spiking neural networks based on degenerate optical parametric oscillators

T. Makinwa, K. Inaba, et al.

Engineering and Technology

Enhanced detection of threat materials by dark-field x-ray imaging combined with deep neural networks

T. Partridge, A. Astolfo, et al.

Listen, Learn & Level Up

Over 10,000 hours of research content in 25+ fields, available in 12+ languages.

No more digging through PDFs—just hit play and absorb the world's latest research in your language, on your time.

listen to research audio papers with researchbunny