Nanophotonics (Sep 2019)

Principles and techniques of the quantum diamond microscope

  • Levine Edlyn V.,
  • Turner Matthew J.,
  • Kehayias Pauli,
  • Hart Connor A.,
  • Langellier Nicholas,
  • Trubko Raisa,
  • Glenn David R.,
  • Fu Roger R.,
  • Walsworth Ronald L.

DOI
https://doi.org/10.1515/nanoph-2019-0209
Journal volume & issue
Vol. 8, no. 11
pp. 1945 – 1973

Abstract

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We provide an overview of the experimental techniques, measurement modalities, and diverse applications of the quantum diamond microscope (QDM). The QDM employs a dense layer of fluorescent nitrogen-vacancy (NV) color centers near the surface of a transparent diamond chip on which a sample of interest is placed. NV electronic spins are coherently probed with microwaves and optically initialized and read out to provide spatially resolved maps of local magnetic fields. NV fluorescence is measured simultaneously across the diamond surface, resulting in a wide-field, two-dimensional magnetic field image with adjustable spatial pixel size set by the parameters of the imaging system. NV measurement protocols are tailored for imaging of broadband and narrowband fields, from DC to GHz frequencies. Here we summarize the physical principles common to diverse implementations of the QDM and review example applications of the technology in geoscience, biology, and materials science.

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