Co-Design quantum simulation of nanoscale NMR

Manuel G. Algaba; Mario Ponce-Martinez; Carlos Munuera-Javaloy; Vicente Pina-Canelles; Manish J. Thapa; Bruno G. Taketani; Martin Leib; Inés de Vega; Jorge Casanova; Hermanni Heimonen

doi:10.1103/PhysRevResearch.4.043089

Physical Review Research (Nov 2022)

Co-Design quantum simulation of nanoscale NMR

Manuel G. Algaba,
Mario Ponce-Martinez,
Carlos Munuera-Javaloy,
Vicente Pina-Canelles,
Manish J. Thapa,
Bruno G. Taketani,
Martin Leib,
Inés de Vega,
Jorge Casanova,
Hermanni Heimonen

Affiliations

Manuel G. Algaba
Mario Ponce-Martinez
Carlos Munuera-Javaloy
Vicente Pina-Canelles
Manish J. Thapa
Bruno G. Taketani
Martin Leib
Inés de Vega
Jorge Casanova
Hermanni Heimonen

DOI: https://doi.org/10.1103/PhysRevResearch.4.043089
Journal volume & issue: Vol. 4, no. 4
p. 043089

Abstract

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Quantum computers have the potential to efficiently simulate the dynamics of nanoscale NMR systems. In this work, we demonstrate that a noisy intermediate-scale quantum computer can be used to simulate and predict nanoscale NMR resonances. In order to minimize the required gate fidelities, we propose a superconducting application-specific Co-Design quantum processor that reduces the number of SWAP gates by over 90% for chips with more than 20 qubits. The processor consists of transmon qubits capacitively coupled via tunable couplers to a central co-planar waveguide resonator with a quantum circuit refrigerator (QCR) for fast resonator reset. The QCR implements the nonunitary quantum operations required to simulate nuclear hyperpolarization scenarios.

Published in Physical Review Research

ISSN: 2643-1564 (Online)
Publisher: American Physical Society
Country of publisher: United States
LCC subjects: Science: Physics
Website: https://journals.aps.org/prresearch/

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