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Co-Design quantum simulation of nanoscale NMR

Physical Review Research (2022) 4(4)
DOI: 10.1103/PhysRevResearch.4.043089
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Abstract

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.

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CITATION STYLE

APA

Algaba, M. G., Ponce-Martinez, M., Munuera-Javaloy, C., Pina-Canelles, V., Thapa, M. J., Taketani, B. G., … Heimonen, H. (2022). Co-Design quantum simulation of nanoscale NMR. Physical Review Research, 4(4). https://doi.org/10.1103/PhysRevResearch.4.043089

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