ISS (Microscopy) | ALPHASCIENCE

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Alba V5 Alba FFS/FLIM is a computer-controlled instrument specifically designed for confocal imaging applications using either single- or multi-photon excitation. The modular design of the instrument allows it to be easily upgraded to acquire Fluorescence Correlation Spectroscopy (FCS) data.	Dichroic Filters •For single-photon excitation: 1-, 2-, 3-band filters • For multi-photon excitation Polarizer Cube beam splitter, wavelength range: 450-1100 nm; extinction ratio: 10,000:1 at +/- 3degrees Stages • Large distance movement (100x100x10 mm) • Stepper motor-controlled XYZ stage • Micro-distance movements • XYZ piezo-controlled stage, 100x100x50 µm with 5 nm step resolution.	Polarizer Cube beam splitter, wavelength range: 450-1100 nm; extinction ratio: 10,000:1 at +/- 3degrees Stages • Large distance movement (100x100x10 mm) • Stepper motor-controlled XYZ stage • Micro-distance movements • XYZ piezo-controlled stage, 100x100x50 µm with 5 nm step resolution. Sample Holders • Microwell plates • Petri dishes • Coverslip

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Olympus FV1000/FV1200 FCS and FLIM Upgrade The FV1000 and FV1200 confocal microscopes can be easily upgraded to Fluorescence Lifetime Imaging (FLIM) and Fluorescence Correlation Spectroscopy (FCS) capability using photon counting detection. FastFLIM is the new digital frequency domain (DFD) approach to FLIM measurements. Its advantages, when compared to other established FLIM techniques, are twofold:	Olympus FV1000/FV1200 3D Nanoimaging and Single-Molecule Tracking Within the past few years, several methods have been devised in order to obtain images with nanometer resolution of cellular features using an optical microscope (STED, PALM, STORM). Although powerful, these methods are quite inefficient when detecting sparse nanostructures in an image. Also they are inadequate to detect the dynamics of chemical reactions which occur in the sub-second time scale in nanometer-size 3D structures, which are continuously	Zeiss LSM 710/LSM 780 FCS and FLIM FastFLIM is the new digital frequency domain (DFD) approach to FLIM measurements. Its advantages, when compared to other established FLIM techniques, are twofold:

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Imaging Options Learn more about our Galvo-controlled Scanning Mirrors for better image acquisition, or our XYZ Piezo-controlled Stage for exceptional resolution and stability	Sample Holders We offer a range of sample holders for various applications.	Filters & Polarizers Learn more about our Filters, Polarizer and Beam Splitter

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