Magnetic measurements on micrometer-sized samples under high pressure using designed NV centers

@article{Lesik2019MagneticMO,
  title={Magnetic measurements on micrometer-sized samples under high pressure using designed NV centers},
  author={M. Lesik and T. Plisson and Loic Toraille and J. Renaud and Florent Occelli and M. Schmidt and O. Salord and A. Delobbe and T. Debuisschert and L. Rondin and P. Loubeyre and J. Roch},
  journal={Science},
  year={2019},
  volume={366},
  pages={1359 - 1362}
}
  • M. Lesik, T. Plisson, +9 authors J. Roch
  • Published 2019
  • Materials Science, Medicine, Physics
  • Science
  • Diamond-based sensors Material properties can change dramatically under pressure. Typically, to achieve high-pressure conditions, researchers place their samples in diamond anvil cells (DACs). However, monitoring the properties of the sample inside a DAC is tricky (see the Perspective by Hamlin and Zhou). Hsieh et al., Lesik et al., and Yip et al. developed monitoring techniques based on nitrogen-vacancy (NV) centers in diamond. The NV centers can act as sensors because their energy levels and… CONTINUE READING
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    References

    SHOWING 1-10 OF 54 REFERENCES
    Magnetic imaging with an ensemble of nitrogen-vacancy centers in diamond
    • 46
    • PDF
    High Pressure Experimental Methods
    • 63