| Literature DB >> 24020334 |
K Ohashi1, T Rosskopf, H Watanabe, M Loretz, Y Tao, R Hauert, S Tomizawa, T Ishikawa, J Ishi-Hayase, S Shikata, C L Degen, K M Itoh.
Abstract
We report successful introduction of negatively charged nitrogen-vacancy (NV(-)) centers in a 5 nm thin, isotopically enriched ([(12)C] = 99.99%) diamond layer by CVD. The present method allows for the formation of NV(-) in such a thin layer even when the surface is terminated by hydrogen atoms. NV(-) centers are found to have spin coherence times of between T2 ~ 10-100 μs at room temperature. Changing the surface termination to oxygen or fluorine leads to a slight increase in the NV(-) density, but not to any significant change in T2. The minimum detectable magnetic field estimated by this T2 is 3 nT after 100 s of averaging, which would be sufficient for the detection of nuclear magnetic fields exerted by a single proton. We demonstrate the suitability for nanoscale NMR by measuring the fluctuating field from ~10(4) proton nuclei placed on top of the 5 nm diamond film.Entities:
Year: 2013 PMID: 24020334 DOI: 10.1021/nl402286v
Source DB: PubMed Journal: Nano Lett ISSN: 1530-6984 Impact factor: 11.189