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Total: 2 records, 1 pages
Search For: Electron Lens
Global Electron Lens Market 2024 by Manufacturers, Regions, Type and Application, Forecast to 2030
14 Jun 2024
Machinery & Equipment
Electronic lens is an electron optical system used to focus and image electron beams. Electron lens is a rotationally symmetric electrostatic field or electromagnetic composite field that enables electron beams to focus and form images after passing through it. When electron beams pass through a rotationally symmetric static electromagnetic field, they can achieve focusing and imaging, which is similar to the phenomenon that occurs when light passes through a glass lens. Applying voltage to metal electrodes will form a series of equipotential surfaces between the electrodes. These equipotential surfaces have the ability to make electron "objects" "images" in areas close enough to the symmetry axis. According to their composition and working principle, electron lenses can be divided into electric lenses, magnetic lenses and electromagnetic complex lenses. Electric lenses are mainly composed of electrostatic fields, while magnetic lenses are purely composed of magnetic fields, and electromagnetic complex lenses combine electrostatic and magnetic fields.
USD3480.00
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Global Electron Lens Supply, Demand and Key Producers, 2024-2030
14 Jun 2024
Machinery & Equipment
Electronic lens is an electron optical system used to focus and image electron beams. Electron lens is a rotationally symmetric electrostatic field or electromagnetic composite field that enables electron beams to focus and form images after passing through it. When electron beams pass through a rotationally symmetric static electromagnetic field, they can achieve focusing and imaging, which is similar to the phenomenon that occurs when light passes through a glass lens. Applying voltage to metal electrodes will form a series of equipotential surfaces between the electrodes. These equipotential surfaces have the ability to make electron "objects" "images" in areas close enough to the symmetry axis. According to their composition and working principle, electron lenses can be divided into electric lenses, magnetic lenses and electromagnetic complex lenses. Electric lenses are mainly composed of electrostatic fields, while magnetic lenses are purely composed of magnetic fields, and electromagnetic complex lenses combine electrostatic and magnetic fields.
USD4480.00
Add To Cart
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Search For: Electron Lens
Total: 2 records, 1 pages
Electronic lens is an electron optical system used to focus and image electron beams. Electron lens is a rotationally symmetric electrostatic field or electromagnetic composite field that enables electron beams to focus and form images after passing through it. When electron beams pass through a rotationally symmetric static electromagnetic field, they can achieve focusing and imaging, which is similar to the phenomenon that occurs when light passes through a glass lens. Applying voltage to metal electrodes will form a series of equipotential surfaces between the electrodes. These equipotential surfaces have the ability to make electron "objects" "images" in areas close enough to the symmetry axis. According to their composition and working principle, electron lenses can be divided into electric lenses, magnetic lenses and electromagnetic complex lenses. Electric lenses are mainly composed of electrostatic fields, while magnetic lenses are purely composed of magnetic fields, and electromagnetic complex lenses combine electrostatic and magnetic fields.
USD3480.00
Add To Cart
Electronic lens is an electron optical system used to focus and image electron beams. Electron lens is a rotationally symmetric electrostatic field or electromagnetic composite field that enables electron beams to focus and form images after passing through it. When electron beams pass through a rotationally symmetric static electromagnetic field, they can achieve focusing and imaging, which is similar to the phenomenon that occurs when light passes through a glass lens. Applying voltage to metal electrodes will form a series of equipotential surfaces between the electrodes. These equipotential surfaces have the ability to make electron "objects" "images" in areas close enough to the symmetry axis. According to their composition and working principle, electron lenses can be divided into electric lenses, magnetic lenses and electromagnetic complex lenses. Electric lenses are mainly composed of electrostatic fields, while magnetic lenses are purely composed of magnetic fields, and electromagnetic complex lenses combine electrostatic and magnetic fields.
USD4480.00
Add To Cart
Popular Product Keywords
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-
Analyze market development needs
-
Prospects for future development
-
Develop industry investment strategy
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