Add to ORKGThe size of the hosting particle affects the spontaneous light emission of embedded emitters. Here we study submicron-sized diamond particles containing silicon-vacancy color centers. We measure size-dependent scattering spectra, fluorescence emission rate, and Raman scattering intensity. Obtained results are found to agree with our calculations and demonstrate the potential of Mie resonances in nanoantennas design
The nitrogen vacancy (NV) center is the most widely studied single optical defect in diamond with gr...
The nitrogen vacancy (NV) center is the most widely studied single optical defect in diamond with gr...
The nitrogen vacancy (NV) center is the most widely studied single optical defect in diamond with gr...
We suggest a novel class of active nanoantennas based on diamond nanoparticles with embedded nitroge...
High-refractive index nanoparticles, including diamond nanoparticles, can exhibit strong optical res...
We study the properties of luminescent diamond particles of different sizes (up to ~1.5 μm) containi...
International audienceSubstituting noble metals for high-index dielectrics has recently been propose...
We studied the coupling of diamond Si color centers with size-controlled Au nanoparticles obtained b...
The spontaneous emission rate properties of diamond nitrogen-vacancy (NV) centres are largely depend...
Similar to their plasmonic counterparts, dielectric nanoantennas have the ability to manipulate the ...
We demonstrate the coupling of single color centers in diamond to plasmonic and dielectric photonic ...
The optical properties of color centers in nanodiamonds are widely used in various branches of photo...
Nitrogen-vacancy colour centres in diamond can undergo strong, spin-sensitive optical transitions un...
The practical implementation of many quantum technologies relies on the development of robust and br...
Spontaneous emission from crystal centers is influenced by both the photonic local density of states...
The nitrogen vacancy (NV) center is the most widely studied single optical defect in diamond with gr...
The nitrogen vacancy (NV) center is the most widely studied single optical defect in diamond with gr...
The nitrogen vacancy (NV) center is the most widely studied single optical defect in diamond with gr...
We suggest a novel class of active nanoantennas based on diamond nanoparticles with embedded nitroge...
High-refractive index nanoparticles, including diamond nanoparticles, can exhibit strong optical res...
We study the properties of luminescent diamond particles of different sizes (up to ~1.5 μm) containi...
International audienceSubstituting noble metals for high-index dielectrics has recently been propose...
We studied the coupling of diamond Si color centers with size-controlled Au nanoparticles obtained b...
The spontaneous emission rate properties of diamond nitrogen-vacancy (NV) centres are largely depend...
Similar to their plasmonic counterparts, dielectric nanoantennas have the ability to manipulate the ...
We demonstrate the coupling of single color centers in diamond to plasmonic and dielectric photonic ...
The optical properties of color centers in nanodiamonds are widely used in various branches of photo...
Nitrogen-vacancy colour centres in diamond can undergo strong, spin-sensitive optical transitions un...
The practical implementation of many quantum technologies relies on the development of robust and br...
Spontaneous emission from crystal centers is influenced by both the photonic local density of states...
The nitrogen vacancy (NV) center is the most widely studied single optical defect in diamond with gr...
The nitrogen vacancy (NV) center is the most widely studied single optical defect in diamond with gr...
The nitrogen vacancy (NV) center is the most widely studied single optical defect in diamond with gr...