![Framework for atomic-level characterisation of quantum computer arrays by machine learning | npj Computational Materials Framework for atomic-level characterisation of quantum computer arrays by machine learning | npj Computational Materials](https://media.springernature.com/full/springer-static/image/art%3A10.1038%2Fs41524-020-0282-0/MediaObjects/41524_2020_282_Fig1_HTML.png)
Framework for atomic-level characterisation of quantum computer arrays by machine learning | npj Computational Materials
![Argonne scientists use quantum computers to simulate quantum materials | Argonne National Laboratory Argonne scientists use quantum computers to simulate quantum materials | Argonne National Laboratory](https://www.anl.gov/sites/www/files/styles/article_teaser_16x9/public/2022-05/16x9_spin.defect.simulation.benchen.huang_.jpg?h=8abcec71&itok=nj7cAbmv)
Argonne scientists use quantum computers to simulate quantum materials | Argonne National Laboratory
![For Quantum Computing, New Hardware Platform Based on 2D Materials | Tech Pulse | May 2019 | Photonics Spectra For Quantum Computing, New Hardware Platform Based on 2D Materials | Tech Pulse | May 2019 | Photonics Spectra](https://www.photonics.com/images/Web/Articles/2019/2/13/thumbnail_64383.jpg)
For Quantum Computing, New Hardware Platform Based on 2D Materials | Tech Pulse | May 2019 | Photonics Spectra
![Quantum Computing and Simulations for Energy Applications: Review and Perspective | ACS Engineering Au Quantum Computing and Simulations for Energy Applications: Review and Perspective | ACS Engineering Au](https://pubs.acs.org/cms/10.1021/acsengineeringau.1c00033/asset/images/medium/eg1c00033_0032.gif)