Ultramicroscopy




Non-linear analysis of EEG-Data



Beams’ optical characteristics



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Bioimaging, Ultramicroscopy, Mikroskopie, Mikroskop, Fruchtfliege, Fliege, Drosophila, Hippocampus, Neurons, Neurone, laser, light sheet, animal model, illumination, Movies, films, microscopy, biology, optics, spines, segmentation, Amira, barrel field, large specimens, bioimaging, neuroimaging, dodt, becker, jährling, sagafi, tu wien, Center for Brain research, TU Vienna, MPI Nature methods, labelling technique, whole mount, laser, lens, GFP, Vienna, Bioelectronics, EEG, RQA, Zsigmondy, Werner Spalteholz, anatomy, morphology, brains, mouse embroys, fluorescence, Fluoreszenz, optical slicing, 3D-reconstuctions, dreidimensional, threedimensional, laser light, objectives, cylinder lens, Gaussian Beam, geometrical optics, Raleigh range, Dehydration, clearing, BABB, lectin, optics, Immunostaining, ethanol serie, deconvolution, PSF, point spread function, UM, microscope, resolution, mouse organs, lectin, XFP, autofluorescence, GFP, whole mount, mouse brain, selective plane, neural networks, fiber bundles, Durchsichtigmachen, Klärung, highthrough put screening, laser beam, beam waist, refraction, Brechungsindex, Bioelectronics, optical slicing, morphology, anatomy, vascular networks, chemical clearin, poinst spred function, LEA, Embryology, embryo, nerve fibers, transparent, neuroscience, Neurobiology, Neurobiologie, analysis, slit apertue, visibility, sample, specimen, focal plane, maximum likelihood, projection, Bildgebungsverfahren, 3D-Rekonstruktion, Ultramikroskopie B