Comparison of microscopic techniques

Comparison of microscopic techniques
The technical field of using microscopes is called microscopy. All microscopes are used to magnify objects that cannot be seen by the naked eye. In the field of Microscopy there are three big branches of microscopic techniques. These are the optical, electron and scanning probe microscopes.

Optical microscopes
The traditional microscopes that have been used since around the 17th century are known as optical or light microscopes. The light microscopes uses at set of lenses to magnify images of given samples. All optic microscopes share the same basic componets in which the light passes from the light source to the users eyes. The lightsource or sometimes a mirror is used. The diaphragm and condenser. The objective lenses and the objective turret. The eyepiece or ocular lens. The all of the magnification of light happens between the objective lens and the eyepiece. By placing the object slightly infront of the focal point of the first lens. The light travels parallel through the first convex lense, and passes the focal point and forms an image inside the focal point of the eyepiece. Thereby the image of the first lens becomes the object for the second lens, and therefore forming a very large virtual inverted image.

Fluorescence microscopy
A Fluorescence microscope is an optical based mircoscope used to study organic or inorganic substances. Fluorescens microscopes are based on the epifluorescens microscopy.

Fluorescence is the emission of light by a substance that has absorbed light or other radiation. The light source emittes light that passes though the objective lens and is focused on the sample.

The principle of fluorescence microscopy works as follows. The sample is illuminated by a source with a specific wavelength that can be absorbed by fluorphores. Fluorophore is a chemical compund that can re-emit light after it has absorbed light initially. Then a spectral emission filiter is used to separate the illuminated ligh source from the re-emited light of the flurescence. Examples for such light sources are mercury vapor lamps or high power LEDs.

Electron Microscopy
A beam of electrons if used to create a surface image of the scanned sample. When working with an electron microscope an beam of electron is used to create an surface image of a sample. The are two types o felectron microscopes, the transmission electron microscope (TEM) and the scanning electron microscope (SEM).

The TEM shoots a high voltage beam of electrons through the sample to obtain information about the structure. Whereas the SEM obtains an image by a process called raster scanning. Here the specimen of a sample scanned with electrons that when interact with the surface of the given sample, producing various signals that can be detected and calculated much like a CT scan. A digital image is then image is then produced of the surface area of the specimen with a magnignification of up-to 500 000 times.

Atomic force microscopy
Atomic force microscopy or (AFM) is a high resolution type of scanning.

Unlike other forms of microscopy the AFM makes use of van-da-Vaals forces to produce an surface image with a resolution on the order of fraction of unto 0,1 nanometers.

The atomic force microscopy (ATM) measures the surface of a sample through a noscopically small needle that is attached to a cantilever. A cantilever is plate like structure, anchored at only one end to a support from which it is protruding.

The needle is guided line by line a defined grit across the surface of the sample. This procedure is called scanning. The bending and deflection of the tip during scanning the surface is measured and creates an image.