What is an Axioscope?

What is an Axioscope?

Axioscope 5 makes documenting your specimens very efficient. The color impression shows up in the camera image exactly the same as it appears through the eyepieces. This smart microscope makes automatic adjustments for brightness and white balance to keep digital documentation easy.

Is Zeiss a good brand?

ZEISS Quality This premium quality is the result of excellent technical expertise. The purity of the raw materials is ensured by innovative filter technologies. Premium quality is guaranteed by very stringent quality control.

What is the magnification of a fluorescent microscope?

The standard magnification is 100× but for very clean filters with few foreign particles 63× objectives are also suitable. The lower magnification allows covering a larger area per field of view.

What is the resolution of a fluorescent microscope?

Spatio-temporal visualization of cellular structures by fluorescence microscopy has become indispensable in biology. However, the resolution of conventional fluorescence microscopy is limited by diffraction to about 180 nm in the focal plane and to about 500 nm along the optic axis.

What is Zeiss lens?

Zeiss Lens Reviews. Zeiss lenses set the standard for precision build quality. Featuring all-metal construction, these lenses feel like they would last forever. From a performance perspective, Zeiss lenses are typically among the best-available. The smooth Zeiss focus ring is the gold standard for DSLR video production.

Why is fluorescence microscopy used?

Fluorescence microscopes are used in cellular and genetic research . The fluorescent microscope is used in the study of cells and micro-organisms, since it can pinpoint specific details in tiny samples with a high degree of accuracy and clarity.

Who invented fluorescence microscope?

The first fluorescence microscopes were developed between 1911 and 1913 by German physicists Otto Heimstaedt and Heinrich Lehmann as a spin-off from the ultraviolet instrument. These microscopes were employed to observe autofluorescence in bacteria, animal, and plant tissues.

How does a fluorescence microscope work?

A fluorescence microscope uses a mercury or xenon lamp to produce ultraviolet light. The light comes into the microscope and hits a dichroic mirror — a mirror that reflects one range of wavelengths and allows another range to pass through. This fluorescent light passes through the dichroic mirror and a barrier filter (that eliminates wavelengths other than fluorescent), making it to the eyepiece to form the image.