Add to ORKGCurrent far-field optical nanoscopy schemes overcome the diffraction barrier by ensuring that adjacent features assume different states upon detection. Ideally, the transition between these states can be repeated endlessly and, if performed optically, with low levels of light. Here we report such optical switching, realized by pairing the luminescent triplet and a long-lived dark state of diamond color centers, enabling their imaging with a resolution >10 times beyond the diffraction barrier (<20 nm)
Coherent population trapping at zero magnetic field was observed for nitrogen-vacancy centers in dia...
Although the spin properties of superficial shallow nitrogen-vacancy (NV) centers have been the subj...
The nitrogen-vacancy (NV) center in diamond has garnered great interest over the past decade as its ...
Current far-field optical nanoscopy schemes overcome the diffraction barrier by ensuring that adjace...
ABSTRACT Current far-field optical nanoscopy schemes overcome the diffraction barrier by ensuring th...
We report on two modalities of lens-based fluorescence microscopy with diffraction-unlimited resolu...
Nitrogen–vacancy (NV) colour centres in diamond are attractive fluorescence emitters owing to their ...
Because they have spin states that can be optically polarized and detected, fluorescent nitrogen vac...
Charged nitrogen-vacancy (NV) color centers in diamond are excellent luminescence sources for far-fi...
Charged nitrogen-vacancy (NV) color centers in diamond are excellent luminescence sources for far-fi...
The nitrogen vacancy defect centre in diamond has attracted intense research interest owing to their...
A nitrogen-vacancy (NV) color center in nanodiamond (NV–ND) exhibits a range of unique luminescent p...
Super-resolution imaging techniques enable nanoscale microscopy in fields such as physics, biology, ...
Nitrogen-vacancy colour centres in diamond can undergo strong, spin-sensitive optical transitions un...
Nitrogen-vacancy centers in diamond typically have spin-conserving optical transitions, a feature wh...
Coherent population trapping at zero magnetic field was observed for nitrogen-vacancy centers in dia...
Although the spin properties of superficial shallow nitrogen-vacancy (NV) centers have been the subj...
The nitrogen-vacancy (NV) center in diamond has garnered great interest over the past decade as its ...
Current far-field optical nanoscopy schemes overcome the diffraction barrier by ensuring that adjace...
ABSTRACT Current far-field optical nanoscopy schemes overcome the diffraction barrier by ensuring th...
We report on two modalities of lens-based fluorescence microscopy with diffraction-unlimited resolu...
Nitrogen–vacancy (NV) colour centres in diamond are attractive fluorescence emitters owing to their ...
Because they have spin states that can be optically polarized and detected, fluorescent nitrogen vac...
Charged nitrogen-vacancy (NV) color centers in diamond are excellent luminescence sources for far-fi...
Charged nitrogen-vacancy (NV) color centers in diamond are excellent luminescence sources for far-fi...
The nitrogen vacancy defect centre in diamond has attracted intense research interest owing to their...
A nitrogen-vacancy (NV) color center in nanodiamond (NV–ND) exhibits a range of unique luminescent p...
Super-resolution imaging techniques enable nanoscale microscopy in fields such as physics, biology, ...
Nitrogen-vacancy colour centres in diamond can undergo strong, spin-sensitive optical transitions un...
Nitrogen-vacancy centers in diamond typically have spin-conserving optical transitions, a feature wh...
Coherent population trapping at zero magnetic field was observed for nitrogen-vacancy centers in dia...
Although the spin properties of superficial shallow nitrogen-vacancy (NV) centers have been the subj...
The nitrogen-vacancy (NV) center in diamond has garnered great interest over the past decade as its ...