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Magnetic resonance detection of individual proton spins using a quantum reporter network

We demonstrate a method of magnetic resonance imaging with single nuclear-spin sensitivity under ambient conditions. It employs a network of isolated electronic-spin quantum bits (qubits) that act as quantum reporters on the surface of high purity diamond. The reporter spins are localized with nanometer-scale uncertainty, and their quantum state is coherently manipulated and measured optically via a proximal nitrogen-vacancy (NV) color center located a few nanometers below the diamond surface. The quantum reporter network is then used for sensing, coherent coupling and imaging individual proton spins on the diamond surface with angstrom resolution. This approach may enable direct structural imaging of complex molecules that cannot be accessed from bulk studies. It realizes a new platform for probing novel materials, monitoring chemical reactions, and manipulation of complex systems on surfaces at a quantum level.

preprint2014arXivOpen access
Alexander O. SushkovIgor LovchinskyNicholas ChisholmRonald L. WalsworthHongkun ParkMikhail D. Lukin
cond-mat.mes-hallquant-ph
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Alexander O. SushkovIgor LovchinskyNicholas ChisholmRonald L. WalsworthHongkun ParkMikhail D. Lukin

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