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The electron density: a fidelity witness for quantum computation

Mårten Skogh, Werner Dobrautz, Phalgun Lolur, Christopher Warren, Janka Biznárová, Amr Osman, Giovanna Tancredi, Jonas Bylander, Martin Rahm

2023Chemical Science10 citationsDOIOpen Access PDF

Abstract

There is currently no combination of quantum hardware and algorithms that can provide an advantage over conventional calculations of molecules or materials. However, if or when such a point is reached, new strategies will be needed to verify predictions made using quantum devices. We propose that the electron density, obtained through experimental or computational means, can serve as a robust benchmark for validating the accuracy of quantum computation of chemistry. An initial exploration into topological features of electron densities, facilitated by quantum computation, is presented here as a proof of concept. Additionally, we examine the effects of constraining and symmetrizing measured one-particle reduced density matrices on noise-driven errors in the electron density distribution. We emphasize the potential benefits and future need for high-quality electron densities derived from diffraction experiments for validating classically intractable quantum computations of materials.

Topics & Concepts

Quantum computerComputationBenchmark (surveying)Electron densityQuantumComputer scienceStatistical physicsElectronPhysicsQuantum mechanicsTheoretical computer scienceComputational physicsComputational scienceAlgorithmGeographyGeodesyQuantum Computing Algorithms and ArchitectureMolecular spectroscopy and chiralityMachine Learning in Materials Science
The electron density: a fidelity witness for quantum computation | Litcius