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![]() ![]() The image can be manipulated by adjusting the voltage of the gun to accelerate or decrease the speed of electrons as well as changing the electromagnetic wavelength via the solenoids. ![]() The beam passes through the solenoids, down the column, makes contact with the screen where the electrons are converted to light and form an image. These solenoids are tubes with coil wrapped around them. The electrons then pass through multiple electromagnetic lenses. In a TEM, electrons replace photons, electromagnetic lenses replace glass lenses and images are viewed on a screen rather than through an eyepiece.Ī Transmission Electron Microscope produces a high-resolution, black and white image from the interaction that takes place between prepared samples and energetic electrons in the vacuum chamber.Īir needs to be pumped out of the vacuum chamber, creating a space where electrons are able to move. TEMs consist of the following components:Ī Transmission Electron Microscope functions under the same basic principles as an optical microscope. After significant improvements to the quality of magnification, Ruska joined the Sieman’s Company in the late 1930s as an electrical engineer, where he assisted in the manufacturing of his TEM. TEMs produce high-resolution, two-dimensional images, allowing for a wide range of educational, science and industry applications.Įrnst Ruska developed the first electron microscope, a TEM, with the assistance of Max Knolls in 1931. At a maximum potential magnification of 1 nanometer, TEMs are the most powerful microscopes. ![]()
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