HIGH
STABILITY
NG108
Left: prior to enhancement
Right: VEC+DIC
Frame stability – the basis of system flexibility.
Current biological research applications require more than a high- quality microscope. They demand a complete system configuration including image processor, photometry system and laser source. To enhance system flexibility, the frame must be strong enough to support the heaviest attachments. To achieve an exceptionally rigid frame for the AX70, Olympus used advanced computer simulation techniques in the design process.
Heat-resistant light source structure.
The power supply represents a source of heat for microscopes. To achieve the best long term thermal stability, the power supply was removed from the body of the microscope. The AX70 was also given a heat-insulating structure to reduce the temperature influence of the lamp housing on the frame. These measures effectively minimize heat-induced frame flexure on the AX70.
Vibration-resistant rigidity ensures the best results for electrophysiological experiments.
The AX70’s tripod-like frame design offers a wider work surface and reduces installation space requirements. In addition, it provides rock-solid stability.
Application example
Video Enhanced Contrast
A low-contrast sample unidentifiable in ordinary microscopic observation can be recorded using a high-sensitivity camera, and contrast-enhancement by means of image processing. The result is unprecedented image contrast and sharpness. A Nomarski DIC attachment with a greater numerical aperture for higher resolution is optionally available for Video Enhanced Contrast(VEC) applications.
AX70 – the obvious choice
The AX70 accepts a high-sensitivity camera and high 2D resolution camera simultaneously using a multi-port head and offers superior stability for mounting a video camera. VEC objectives and Nomarski DIC prisms are also provided to deliver brightly illuminated, higher-contrast images.
