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Beilstein J. Nanotechnol. 2020, 11, 740–769, doi:10.3762/bjnano.11.61
Figure 1: (a) Schematic representation of spontaneous emission from a non-resonantly driven 2-level system. (...
Figure 2: Example of h-BN SPE properties. (a) Micro-PL spectrum at 10 K excited with a 532 nm CW laser with a...
Figure 3: (a) Energy levels and orbitals of the ground state VNNB (antisite) on the left. On the right, the a...
Figure 4: h-BN SPE strain-induced fabrication. (a) Schematics of a ≈20 nm-thick flake of h-BN on a nanopillar...
Figure 5: Rabi oscillations. (a) g(2)(τ) function measured using the phonon sideband (PSB) photons as a funct...
Figure 6: Magnetic field dependent fluorescence of an SPE in h-BN. (a) Optical microscope image of an exfolia...
Figure 7: Design and fabrication of a microcavity incorporating h-BN consisting of a hemispherical and flat m...
Figure 8: Upconversion of defects in h-BN. (a) Optical microscope image of an exfoliated h-BN flake on SiO2. ...
Figure 9: Spectral wide-field characterization of quantum emitters in h-BN. (a,b) Experimental setup schemati...
Beilstein J. Nanotechnol. 2019, 10, 2383–2395, doi:10.3762/bjnano.10.229
Figure 1: (a–d) Fabrication steps to obtain the 4H-SiC micropillars. (e–h) Optical microscopy and SEM images ...
Figure 2: (a–c) Room-temperature PL spectra of the pillars and the gap area (lower dashed curves) for samples...
Figure 3: PL emission of sample 3 after excitation at 940 nm at 12 K, showing ZPL emissions at 1221, 1223, an...
Figure 4: General schematics of the confocal systems used for imaging, spectroscopy and lifetime measurements...
Figure 5: Confocal image and zoom image of a 10 × 10 µm2 VSi fluorescent micropillar array excited by a 730 n...
Figure 6: Confocal image and zoom image of a 10 × 10 µm2 NCVSi fluorescent micropillars array excited by a 98...
Figure 7: (a) Photostability of one micropillar and the gap region for samples 1 (top) and 4 (bottom) at exci...
Figure 8: Finite-element method simulation for a pillar of 4.3 µm height and a dipole orientation 8° off the c...
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...