Ultraviolet microscopy is a method of studying objects in a microscope, in which the object is illuminated with ultraviolet rays. The visible image is obtained using a special fluorescent screen, which allows for a higher contrast image, especially inside cells.
This research method is used in various fields such as biology, medicine, chemistry and others. It allows you to see the structure of cells and their organelles, as well as detect various chemical compounds and elements.
Ultraviolet microscopy has a number of advantages over other research methods. Firstly, it allows you to get a clearer and more contrasting image of the object. Secondly, this method allows you to study objects at smaller scales than other methods.
However, like any other research method, ultraviolet microscopy also has its drawbacks. For example, ultraviolet rays can damage some cells and organic compounds, so special protective equipment must be used.
In general, ultraviolet microscopy is an important method for studying objects in the microcosm. It allows you to obtain a more accurate and detailed image of objects, which can help in understanding their structure and function.
Ultraviolet microscopy - M., a method of microscopic examination in which an image of an object illuminated by ultraviolet (UV) rays is obtained using special instruments called fluorescent microscopes. This method is based on the property of some dyes to glow when irradiated with ultraviolet radiation. Therefore, after such irradiation, special filters are used that filter out all light rays except ultraviolet ones. This filter only allows rays of wavelength 254 nanometers (nm) or shorter to pass through, whereas typical flash lights have wavelengths in the region of 380-500 nm.