1995
DOI: 10.1007/bf01081333
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Ground-state-depletion fluorscence microscopy: A concept for breaking the diffraction resolution limit

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Cited by 507 publications
(422 citation statements)
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“…Examples comprise transferring the molecules to a transient dark state [5], optical transfers between two distinguishable fluorophore isomers (e.g., 'photoswitching' fluorophores), and others [6]. Separating features by states rather than by waves, and more specifically, preventing the molecules of neighboring features to occupy their fluorescent state at the same time, is also the basis of the stochastic nanoscopy approaches that detect and localize individual molecules (PALM/STORM) [7][8][9].…”
Section: Introductionmentioning
confidence: 99%
“…Examples comprise transferring the molecules to a transient dark state [5], optical transfers between two distinguishable fluorophore isomers (e.g., 'photoswitching' fluorophores), and others [6]. Separating features by states rather than by waves, and more specifically, preventing the molecules of neighboring features to occupy their fluorescent state at the same time, is also the basis of the stochastic nanoscopy approaches that detect and localize individual molecules (PALM/STORM) [7][8][9].…”
Section: Introductionmentioning
confidence: 99%
“…When this spot of subdiffraction dimensions is scanned across the specimen, a super-resolution image is obtained. Subdiffraction imaging techniques that share this working principle are termed reversible saturable optical transition (RESOLFT) [2]; depending on the particular molecular transition exploited to switch fluorophores to a dark state, the modalities are termed stimulated emission depletion (STED) [3][4][5], ground stated depletion (GSD) [6,7] or, simply, RESOLFT [8].…”
Section: Conceptmentioning
confidence: 99%
“…Optical shelving or GSD imaging [6,7] is another superresolution imaging technique based on the RESOLFT concept: Molecules in the periphery of the focal spot are driven to the lowest triplet state (optical shelving) depleting the fluorophores ground state and transiently confining the fluorescence emission to the unaffected central spot of subdiffraction size. In practice, recovery of the fluorescence is essential as the technique relies on scanning.…”
Section: Ground State Depletionmentioning
confidence: 99%
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“…In the past two decades a number of super-resolved microscopy (SRM) techniques have emerged for which the resolution is not limited by diffraction. Following the invention of stimulated emission depletion (STED) microscopy [4,5] and ground state depletion (GSD) microscopy [6] these laser scanning approaches were generalised as "RESOLFT" [7] techniques and were later complemented by stochastically switched single molecule localisation techniques such as PALM [8,9] and STORM [10]. While all these SRM techniques can provide excellent laterally super-resolved images of cells near the microscope coverslip, it is more challenging to realise SRM in the axial direction, particularly inside biological samples that present optical aberrations and scattering.…”
Section: Introductionmentioning
confidence: 99%