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Homonuclear correlation spectroscopy (COSY) is a powerful technique used in Nuclear Magnetic Resonance (NMR) spectroscopy to study the correlations between nuclei of the same type within a molecule. It provides information about scalar couplings between adjacent nuclei, which helps determine connectivity and structural information. There are several COSY variants, each with its unique strengths and experimental parameters.
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The 1D NMR spectrum of large and complex molecules like natural products has complicated splitting patterns and overlapping signals, which can be easily interpreted using 2-dimensional (2D) NMR. Unlike 1D NMR, 2D NMR has two frequency axes that provide the coupling information between the nucleus A and nucleus B in a molecule. The process from which 2D spectra are obtained has four steps.
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Randomized Benchmarking Using Nondestructive Readout in a Two-Dimensional Atom Array.

B Nikolov1, E Diamond-Hitchcock1, J Bass1

  • 1Department of Physics and SUPA, University of Strathclyde, Glasgow G4 0NG, United Kingdom.

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|August 4, 2023
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Summary
This summary is machine-generated.

Neutral atoms show promise for quantum computing. This study achieved high-fidelity single-qubit gates on a 225-site array and improved readout fidelity on a 49-site array, advancing scalable quantum computation.

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Area of Science:

  • Quantum Information Science
  • Atomic Physics
  • Quantum Computing Hardware

Background:

  • Scalable quantum computing requires high-fidelity quantum gates and efficient readout methods.
  • Previous demonstrations often involved limited qubit numbers.
  • Neutral atom platforms offer a promising route to scalability.

Purpose of the Study:

  • To demonstrate high-fidelity single-qubit gates on a large neutral atom array.
  • To develop and validate low-loss, nondestructive readout methods for neutral atom qubits.
  • To assess the impact of improved readout on gate fidelity.

Main Methods:

  • Utilized randomized benchmarking to measure single-qubit gate errors.
  • Employed microwave-driven gates on a 225-site neutral atom array.
  • Developed and tested low-loss, nondestructive, state-selective readout on a 49-site array.

Main Results:

  • Achieved average gate errors of 7(2)×10⁻⁵ on the 225-site array with destructive readout.
  • Demonstrated a 1.7-fold reduction in primary measurement errors using nondestructive readout on 49 sites.
  • Attained gate errors of 2(9)×10⁻⁴ with the improved readout method.

Conclusions:

  • High-fidelity single-qubit gates are achievable in large neutral atom arrays.
  • Nondestructive readout significantly suppresses measurement errors, crucial for scalable quantum computing.
  • These advancements pave the way for more robust and scalable neutral atom quantum computers.