YANG, Bin; C.-Y., Fang; H.-C., Chang; TREUSSART, François; TREBBIA, Jean-Baptiste; LOUNIS, Brahim

doi:10.1039/C5FD00092K

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YANG, Bin
Laboratoire Photonique, Numérique et Nanosciences [LP2N]

C.-Y., Fang
Institute of Atomic and Molecular Science

H.-C., Chang
Institute of Atomic and Molecular Science

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Faraday Discussions. 2015, vol. 184, p. 37-49

Royal Society of Chemistry

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Massive parallelization of STED-like nanoscopies is now achievable using well-designed optical lattices for state depletion. Yet, only the lattice intensity distribution was considered for the description of the super-resolved point spread function. Thisholds for fast-rotating fluorescent emitters. Here, we study the effects of electric field topography in lattice–STED microscopy. The dependence of the super-resolved point spread function on the number of dipoles and their orientation isinvestigated. Single fluorescent nano-diamonds are imaged using different optical lattice configurations and the measured resolutions are compared to theoretical simulations.< Leer menos

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Polarization effects in lattice–STED microscopy

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