The FV3000 microscopes also make it simple to view samples up close as well as in their larger context. With nosepieces that accommodate up to 7 objectives and an optimized macro-to-micro light path, users can capture images from 1.25X to 150X. Researchers can also quickly locate regions of interest in a low magnification overview and then switch to a higher magnification to observe fine details. Combined with the system’s stitching algorithm, users can create high-resolution macro images to show their samples in context.
These leading-edge imaging features are now available in two new upright frames, one optimized for fixed tissue experiments and the other for electrophysiology. For standard imaging of fixed tissue, the upright microscope’s motorized 7-position nosepiece and condenser enable automated transitions from low to high magnification for powerful macro-to-micro applications. For electrophysiology experiments, the modified microscope frame features more working space around the objective lens so researchers can easily install and operate patch clamp equipment or other electrophysiology devices. Additional working space can be created for experiments that involve small animals by lowering the height of the stage.
To learn more about FV3000 microscopes or other Olympus Life Science products, contact your local sales representative or visit www.olympus-lifescience.com.
*Tested against four existing technologies.