Imaging mesoscopic nuclear spin noise with a diamond magnetometer
Author(s)
Meriles, Carlos A.; Jiang, Liang; Goldstein, Garry; Hodges, Jonathan S.; Maze, Jeronimo R.; Lukin, Mikhail D.; Cappellaro, Paola; ... Show more Show less
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Magnetic resonance imaging can characterize and discriminate among tissues using their diverse physical and biochemical properties. Unfortunately, submicrometer screening of biological specimens is presently not possible, mainly due to lack of detection sensitivity. Here we analyze the use of a nitrogen-vacancy center in diamond as a magnetic sensor for nanoscale nuclear spin imaging and spectroscopy. We examine the ability of such a sensor to probe the fluctuations of the “classical” dipolar field due to a large number of neighboring nuclear spins in a densely protonated sample. We identify detection protocols that appropriately take into account the quantum character of the sensor and find a signal-to-noise ratio compatible with realistic experimental parameters. Through various example calculations we illustrate different kinds of image contrast. In particular, we show how to exploit the comparatively long nuclear spin correlation times to reconstruct a local, high-resolution sample spectrum.
Date issued
2010-09Department
Massachusetts Institute of Technology. Department of Nuclear Science and EngineeringJournal
Journal of Chemical Physics
Publisher
American Institute of Physics
Citation
Meriles, Carlos A. et al. “Imaging mesoscopic nuclear spin noise with a diamond magnetometer.” The Journal of Chemical Physics 133, 124105 (2010): 124105. © 2010 American Institute of Physics
Version: Final published version
ISSN
0021-9606