2 article(s) from Meijer, Jan
- Letter
- Published 16 Nov 2016
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Figure 1: Formation and quenching of NV centres. (a) PL-intensity mapping performed on the diamond surface wh...
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Figure 2: In-plane Schottky diode from diamond. (a) Schematic figure of an in-plane Al Schottky diode on an H...
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Figure 3: Active charge state control of a single NV centre. At zero bias there is only a PL-background of th...
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Figure 4: Schematic setup for time-resolved measurement of NV-intensity. To record the time evolution of the ...
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Figure 5: Fast charge state switching. The result of the time-resolved NV-intensity measurement shows that sw...
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Figure 6: Time constant for charge state switching. Time constants deduced from fitting an exponential functi...
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Figure 7: Degradation effect. After several 1000 switching cycles, the measured time constants for dischargin...
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Figure 8: Simultaneous measurement of NV− and NV0 intensity. A time-resolved measurement of NV− (red curve) a...
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- Full Research Paper
- Published 21 Dec 2012
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Figure 1: (a) Scanning electron micrograph of a mica mask. High aspect ratio channels were created by bombard...
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Figure 2: Nonlinear optical microscopy of implanted color centers by using ground-state-depletion microscopy ...
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Figure 3: Fluorescence spectra of the nitrogen–vacancy defect in diamond. The upper curve shows the spectrum ...
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Figure 4: Plasmonic resonator geometries, field I and current q for (a) half-wave antenna, (b) bow tie and cr...
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Figure 5: Enhancement of the collection efficiency with a hemispherical solid immersion lens (SIL). (a) Reduc...
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Figure 6: Macroscopic solid immersion lens [10]. (a) Photograph of a single crystalline diamond hemisphere. (b) C...
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Figure 7: Fabrication of a microscopic diamond hemisphere by focused ion beam milling. (a) Grid of FIB marker...
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Figure 8: (a) Scanning electron microscopy (SEM) image of a micropillar resonator with embedded diamond nanoc...
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Figure 9: (a) Normalized intensity autocorrelation function g(2)(τ) from a micropillar cavity of 1.6 µm diame...
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Figure 10: View into the MWPECVD reactor during growth of a single-crystalline diamond layer.
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Figure 11: (a) Optical emission spectroscopy: observed nickel emission in the MWPECVD plasma during diamond gr...
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Figure 12: (a) SIMS depth profile of nickel-doped single-crystal diamond layer. The intensity of the two “mark...
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Figure 13: Cathodoluminescence spectra measured at a temperature of 5 K on a nickel-doped single-crystal diamo...
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Figure 14: (a–c) Room-temperature PL mapping excited at a wavelength of 660 nm on (111) diamond layers grown b...
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Figure 15: (a) As-grown nanodiamond particles on a silicon substrate. (b) Confocal photoluminescence mapping (...
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