Abstract
We demonstrate that photonic emitter manipulation can be used to image the nanoscale topography of a fluorescently labeled layer in confocal imaging. We exploit the fact that a metallic probe manipulates a fluorophore's photonic environment, and thereby its fluorescent lifetime, in a strongly distance-dependent manner. To image surface topography, a metallic probe that is not in contact with the surface is rasterscanned over a fluorescently labeled sample. The axial position of the probe is kept constant. At each lateral probe position, the fluorescence decay is recorded and analyzed to obtain probe - sample distances and hence, the topography of the sample. We present images resolving a microfabricated step of 14 nm in topography, with the probe positioned at different axial positions.
Highlights
The classical resolution limit of optical imaging has been bypassed by a number of superresolution microscopy methods [1,2,3,4,5]
Our approach is based on the well-known effect that changes in local density of optical states (LDOS) that fluorophores experience, result in a change of the fluorophore’s fluorescence lifetime [7,8]
The LDOS is characteristically dependent on the distance between the fluorophore and the metallic interface
Summary
The classical resolution limit of optical imaging has been bypassed by a number of superresolution microscopy methods [1,2,3,4,5]. We measure the fluorescence lifetime and determine the distance between fluorophores and the LDOS manipulating metallic probe with the help of a calibration curve. 4) The control over the LDOS manipulating probe position allows for recording calibration curves that relate the observed lifetime to distance.
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