Olympus Szx16. Olympus Trinocular SZX16 Stereo Microscope This system's modularity allows you to create application-specific configurations based on your needs and offers a wide range of modular components for precise inspection and measurement The Olympus SZX16 is a high-performance stereo microscope designed for a wide range of applications in research, industrial, and educational settings
Olympus SZX10 and SZX16 stereo microscopes with topnotch optics from www.lmscope.com
The SZX16 can also be equipped with a trinocular tube and Olympus DP series digital camera for high-resolution imaging and research documentation Advanced Fluorescence Observation The SZX16 is suitable as a fluorescence microscope for observing everything from whole organisms to nuclear detail, thanks to its precisely engineered optics and high NA
Olympus SZX10 and SZX16 stereo microscopes with topnotch optics
DP series cameras offer the high sensitivity for a wide range of applications, including high-sensitivity fluorescence imaging, and can be easily controlled using Olympus cellSens software. DP series cameras offer the high sensitivity for a wide range of applications, including high-sensitivity fluorescence imaging, and can be easily controlled using Olympus cellSens software. The SZX16 can also be equipped with a trinocular tube and Olympus DP series digital camera for high-resolution imaging and research documentation
Olympus SZX16. The SZX16 features the world's highest 16.4x zoom ratio * and the largest numerical aperture (NA) Known for its superior optical quality and versatility, it is a popular choice in various scientific disciplines, from biology and materials science to industrial inspection and forensic analysis.
OLYMPUS Stéréomicroscope OLYMPUS SZX16 MICRO MÉCANIQUE. Designed for advanced research, the SZX16 stereo microscope's darkfield and polarization capabilities, 0.3 numerical aperture, and large 16.4:1 zoom ratio enable you to image whole organisms down to fine microscopic and individual cell structures The advanced glass materials with low autofluorescence and new surface coatings greatly increase the transmission of light and consequently improve image clarity