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Quantum probe hyperpolarisation of molecular nuclear spins

Author

Listed:
  • David A. Broadway

    (University of Melbourne
    University of Melbourne)

  • Jean-Philippe Tetienne

    (University of Melbourne
    University of Melbourne)

  • Alastair Stacey

    (University of Melbourne
    University of Melbourne
    Melbourne Centre for Nanofabrication)

  • James D. A. Wood

    (University of Melbourne
    University of Melbourne
    University of Basel, Klingelbergstrasse 82)

  • David A. Simpson

    (University of Melbourne)

  • Liam T. Hall

    (University of Melbourne)

  • Lloyd C. L. Hollenberg

    (University of Melbourne
    University of Melbourne)

Abstract

Hyperpolarisation of nuclear spins is important in overcoming sensitivity and resolution limitations of magnetic resonance imaging and nuclear magnetic resonance spectroscopy. Current hyperpolarisation techniques require high magnetic fields, low temperatures, or catalysts. Alternatively, the emergence of room temperature spin qubits has opened new pathways to achieve direct nuclear spin hyperpolarisation. Employing a microwave-free cross-relaxation induced polarisation protocol applied to a nitrogen vacancy qubit, we demonstrate quantum probe hyperpolarisation of external molecular nuclear spins to ~50% under ambient conditions, showing a single qubit increasing the polarisation of ~106 nuclear spins by six orders of magnitude over the thermal background. Results are verified against a detailed theoretical treatment, which also describes how the system can be scaled up to a universal quantum hyperpolarisation platform for macroscopic samples. Our results demonstrate the prospects for this approach to nuclear spin hyperpolarisation for molecular imaging and spectroscopy and its potential to extend beyond into other scientific areas.

Suggested Citation

  • David A. Broadway & Jean-Philippe Tetienne & Alastair Stacey & James D. A. Wood & David A. Simpson & Liam T. Hall & Lloyd C. L. Hollenberg, 2018. "Quantum probe hyperpolarisation of molecular nuclear spins," Nature Communications, Nature, vol. 9(1), pages 1-8, December.
  • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-03578-1
    DOI: 10.1038/s41467-018-03578-1
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    Cited by:

    1. K. S. Cujia & K. Herb & J. Zopes & J. M. Abendroth & C. L. Degen, 2022. "Parallel detection and spatial mapping of large nuclear spin clusters," Nature Communications, Nature, vol. 13(1), pages 1-10, December.

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