Nanoscopy with more than 100,000 'doughnuts'

Chmyrov, Andriy; Keller, Jan; Grotjohann, Tim; Ratz, Michael; d'Este, Elisa; Jakobs, Stefan; Eggeling, Christian; Hell, Stefan W.

Nanoscopy with more than 100,000 'doughnuts'

2013 | journal article; research paper. A publication with affiliation to the University of Göttingen.

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Nanoscopy with more than 100,000 'doughnuts'
Chmyrov, A. ; Keller, J. ; Grotjohann, T.; Ratz, M. ; d'Este, E. ; Jakobs, S. & Eggeling, C. et al. (2013)
Nature Methods, 10(8) pp. 737-742. DOI: https://doi.org/10.1038/nmeth.2556

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Authors: Chmyrov, Andriy ; Keller, Jan ; Grotjohann, Tim; Ratz, Michael ; d'Este, Elisa ; Jakobs, Stefan ; Eggeling, Christian ; Hell, Stefan W.
Abstract: We show that nanoscopy based on the principle called RESOLFT (reversible saturable optical fluorescence transitions) or nonlinear structured illumination can be effectively parallelized using two incoherently superimposed orthogonal standing light waves. The intensity minima of the resulting pattern act as 'doughnuts', providing isotropic resolution in the focal plane and making pattern rotation redundant. We super-resolved living cells in 120 mm x 100 mm-sized fields of view in <1 s using 116,000 such doughnuts.
Issue Date: 2013
Journal: Nature Methods
ISSN: 1548-7091
eISSN: 1548-7105
Language: English

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Nanoscopy with more than 100,000 'doughnuts'

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