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Beilstein J. Nanotechnol. 2019, 10, 2128–2151, doi:10.3762/bjnano.10.207
Figure 1: Diamond NV center mediated optomagnetic imaging of brain sample neural activity [72]. Image reproduced ...
Figure 2: Experimental set-up and characterization of NV centers and the gradient microcoil of [43]. Image reprod...
Figure 3: Single-cell magnetic imaging quantum diamond microscope [53]. Image reprinted with permission from [53], co...
Figure 4: NV-NMR detection system schematic of [73]. Image reprinted with permission from [73], copyright 2013, AAAS....
Figure 5: Experimental setup and magnetometry with repetitive readout [78]. Image reprinted with permission from [78]...
Figure 6: NV-ensemble sensor for coherently averaged synchronized readout (CASR) NMR. Image reprinted with pe...
Beilstein J. Nanotechnol. 2013, 4, 534–541, doi:10.3762/bjnano.4.62
Figure 1: Illustration of the nano-well fabrication by (a) dry plasma etching of Au-film and PMMA mask, which...
Figure 2: (a) Transmission T and reflectivity R coefficients for different geometries of the hole/well-array ...
Figure 3: Experimentally measured extinction of the nano-well substrate for hole diameters of 70, 90, and 120...
Figure 4: Light intensity distribution in the xz-plane simulated by 3D-FDTD at the two laser wavelengths (a,c...
Figure 5: Arrow plot of the trapping force for plane-wave illumination in medium-to-substrate direction (as i...
Figure 6: Arrow plot of the trapping force as in Figure 5 at 760 nm wavelength for a 100-nm diameter bead in (a) wate...
Figure 7: Force evaluation in the neighborhood of the central trapping spot (0,z0) at 760 nm wavelength for a...