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Understanding and mitigating noise in molecular quantum linear response for spectroscopic properties on quantum computers

Understanding and mitigating noise in molecular quantum linear response for spectroscopic properties on quantum computers
Understanding and mitigating noise in molecular quantum linear response for spectroscopic properties on quantum computers

The promise of quantum computing to circumvent the exponential scaling of quantum chemistry has sparked a race to develop chemistry algorithms for quantum architecture. However, most works neglect the quantum-inherent shot noise, let alone the effect of current noisy devices. Here, we present a comprehensive study of quantum linear response (qLR) theory obtaining spectroscopic properties on simulated fault-tolerant quantum computers and present-day near-term quantum hardware. This work introduces novel metrics to analyze and predict the origins of noise in the quantum algorithm, proposes an Ansatz-based error mitigation technique, and reveals the significant impact of Pauli saving in reducing measurement costs and noise in subspace methods. Our hardware results using up to cc-pVTZ basis set serve as proof of principle for obtaining absorption spectra on quantum hardware in a general approach with the accuracy of classical multi-configurational methods. Importantly, our results exemplify that substantial improvements in hardware error rates and measurement speed are necessary to lift quantum computational chemistry from proof of concept to an actual impact in the field.

2041-6520
4456-4468
Ziems, Karl Michael
6d346238-2471-47c7-b89f-590059caf037
Kjellgren, Erik Rosendahl
c05eb9d4-e87e-43da-800a-1828d8d7f95f
Sauer, Stephan P.A.
7a0e1312-165e-4670-ac1c-a0f3541e4181
Kongsted, Jacob
460ce016-8491-4084-8934-a439c16105c5
Coriani, Sonia
a1d68d22-6db5-4c02-9971-097ff3f7bc71
Ziems, Karl Michael
6d346238-2471-47c7-b89f-590059caf037
Kjellgren, Erik Rosendahl
c05eb9d4-e87e-43da-800a-1828d8d7f95f
Sauer, Stephan P.A.
7a0e1312-165e-4670-ac1c-a0f3541e4181
Kongsted, Jacob
460ce016-8491-4084-8934-a439c16105c5
Coriani, Sonia
a1d68d22-6db5-4c02-9971-097ff3f7bc71

Ziems, Karl Michael, Kjellgren, Erik Rosendahl, Sauer, Stephan P.A., Kongsted, Jacob and Coriani, Sonia (2025) Understanding and mitigating noise in molecular quantum linear response for spectroscopic properties on quantum computers. Chemical Science, 16 (10), 4456-4468. (doi:10.1039/d4sc05839a).

Record type: Article

Abstract

The promise of quantum computing to circumvent the exponential scaling of quantum chemistry has sparked a race to develop chemistry algorithms for quantum architecture. However, most works neglect the quantum-inherent shot noise, let alone the effect of current noisy devices. Here, we present a comprehensive study of quantum linear response (qLR) theory obtaining spectroscopic properties on simulated fault-tolerant quantum computers and present-day near-term quantum hardware. This work introduces novel metrics to analyze and predict the origins of noise in the quantum algorithm, proposes an Ansatz-based error mitigation technique, and reveals the significant impact of Pauli saving in reducing measurement costs and noise in subspace methods. Our hardware results using up to cc-pVTZ basis set serve as proof of principle for obtaining absorption spectra on quantum hardware in a general approach with the accuracy of classical multi-configurational methods. Importantly, our results exemplify that substantial improvements in hardware error rates and measurement speed are necessary to lift quantum computational chemistry from proof of concept to an actual impact in the field.

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Accepted/In Press date: 19 December 2024
e-pub ahead of print date: 8 January 2025
Published date: 8 January 2025
Additional Information: This journal is © The Royal Society of Chemistry.
Learn more about School of Chemistry research

Identifiers

Local EPrints ID: 499135
URI: http://eprints.soton.ac.uk/id/eprint/499135
DOI: doi:10.1039/d4sc05839a
ISSN: 2041-6520
PURE UUID: ede23ff2-f3a3-4ba6-8d90-ec270a7eac08
ORCID for Karl Michael Ziems: ORCID iD orcid.org/0000-0001-5369-7778

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Date deposited: 10 Mar 2025 18:02
Last modified: 22 Aug 2025 02:46

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Author: Karl Michael Ziems ORCID iD
Author: Erik Rosendahl Kjellgren
Author: Stephan P.A. Sauer
Author: Jacob Kongsted
Author: Sonia Coriani

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