Olympus is continually developing confocal microscopes to meet the challenging needs of high-end researchers. Our FluoView™ Laser Scanning Confocal Series offers a choice of four models for a variety of applications requiring ultra-thin sectioning and high resolution imaging. All designs are compatible with the Olympus research range of microscopes offering high-resolution confocal optical sectioning.
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Olympus' Fluoview FV1000MPE is a multiphoton laser scanning microscope that allows fluorescence imaging deep within thick specimens with unparalleled sensitivity and resolution. The FV1000MPE features a range of flexible configurations that provide cutting-edge imaging technology for neuroscience, cell biology and numerous other research areas. |
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The Olympus Fluoview FV1000 LSCM features the unique SIM Scanner incorporating two independent, fully synchronised laser scanners in a single compact design. This enables simultaneous laser light stimulation and high resolution confocal observation. The spectral optical detection system of the FV1000 provides superior linear spectral distribution throughout the wavelength range from 400 to 800 nm. |
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The DSU (Disk Scanning Unit) offers cost efficient semi-confocal image observation with a cooled CCD camera and an arc lamp illumination source. The DSU disk contains a pattern of slits that creates a virtual pinhole as the disk spins at 3000 rpm. It removes out of focus blur, thereby enhancing resolution. This yields clear, continuous, optically cross-sectioned images. |
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The unique FluoView FV10i is a fully automated, benchtop confocal laser-scanning microscope. The completely re-engineered design of this microscope, integrated into a self-contained package with a variety of functions, enables even inexperienced and first-time users to perform easily and efficient high-quality confocal imaging. The FV10i features Olympus' renowned optical components and intuitive software interface. |
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The CellVoyagerTM CV1000 Confocal Scanner Box is a fully integrated desktop imaging system that includes a confocal scanner unit (CSU), laser light sources, an EMCCD camera, and precision environmental controls. With its microlens enhanced dual Nipkow disc scanning technology, phototoxicity and photobleaching are drastically reduced, making it ideal for use in observing highly delicate life processes such as iPS/ES cell generation and embryogenesis. The system is easy to use and eliminates the need for a dark room. |
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NBI Atlas
EUS Symposium 2012
EBUS Symposium 2012
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