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The earliest version of the CRT was a cold-cathode diode, a modification of the Crookes tube (see X-ray) with a phosphor coated screen, sometimes called a Braun tube. The first version to use a hot cathode was developed by J. B. Johnson (who gave his name to the term Johnson noise) and H. W. Weinhart of Western Electric and became a commercial product in 1922.
Cathode rays are streams of high speed electrons emitted from the heated cathode of a vacuum tube.In a cathode ray tube, the electrons are carefully directed into a beam, and this beam is deflected by a magnetic fieldIn physics, a magnetic field is an entity produced by moving electric charges ( electric currents) that exerts a force on other moving charges. The quantum-mechanical spin of a particle produces magnetic fields and is acted on by them as though it were a to scan the surface at the viewing end ( anodeAn anode is the positive electrode in an eletrolytic system or circuit. Literally, the path through which the electrons ascend out of an electrolyte solution. In electrochemistry, the anode is where oxidation occurs and is also the negative discharge plat), which is lined with phosphorescent materialA phosphor is a substance that can exhibit the phenomenon of fluorescence (glowing during absorption of radiation of another kind) or phosphorescence (sustained glowing without further stimulus). The chemical element phosphorus (Greek. phosphoros meaning (usually based on transition metalGroup Period 4 Period 5 Period 6 Period 7 3 (III B) Sc 21 Y 39 Lu 71 Lr 103 4 (IV B) Ti 22 Zr 40 Hf 72 Rf 104 5 (V B) V 23 Nb 41 Ta 73 Db 105 6 (VI B) Cr 24 Mo 42 W 74 Sg 106 7 (VII B) Mn 25 Tc 43 Re 75 Bh 107 8 (VIII B) Fe 26 Ru 44 Os 76 Hs 108 9 (VIII Bs or rare earthA rare earth is an oxide of a rare earth element. Often rare earth elements themselves are loosely called "rare earths". Rare earth elements, or metals, are the lanthanides and actinides. They come from the f-block. They are: lanthanum, cerium, praseodymis). When the electrons hit this material, lightLight is electromagnetic radiation with a wavelength that is visible to the eye, or in a more general sense, any electromagnetic radiation in the range from infrared to ultraviolet. The three basic dimensions of light (and of all electromagnetic radiation is emitted.
In case of a television and modern computer monitors, the entire front area of the tube is scanned in a fixed pattern called a raster, and a picture is created by modulating the intensity of the electron beam according to the programme's video signal . The beam in all modern TV sets is scanned with a magnetic field applied to the neck of the tube with a "magnetic yoke", a set of coils driven by electronic circuits. This use of electromagnets to steer the electron beam is referred to as "magnetic deflection".
In case of an oscilloscope, the intensity of the electron beam is kept constant, and the picture is drawn by steering the beam along an arbitrary path. Usually, the horizontal deflection is proportional to time, and the vertical deflection is proportional to the signal. The tube for this kind of use is longer and narrower, and deflection is done by applying an electrical field via deflection plates built into the tube's neck. The use of an electrical field (so-called "electrostatic deflection") allows the electron beam to be steered much more rapidly than with a magnetic field, where the inductance of the electromagnets imposes relatively severe limits on the frequency range that can be accurately reproduced.
Graphical displays for early computers used vector monitor s, a type of CRT similar to the oscilloscope. Here, the beam would trace straight lines between arbitrary points, repeatedly refreshing the display as quickly as possible. Vector monitors were used in many computer displays as well as by some late 1970s to mid 1980s arcade games such as Asteroids. Vector displays for computers did not noticeably suffer the display artifacts of aliasing and pixelization, but were limited in that they could display only a shape's outline, and only a very small amount of rather largely-drawn text. (Because the speed of refresh was roughly inversely proportional to how many vectors needed to be drawn, "filling" an area using many individual vectors was impractical as was the display of a large amount of text.) Some vector monitors are capable of displaying several colors using either an ordinary tri-color CRT or two phosphor layers (so called "penetration color"). In these dual-layer tubes, by controlling the strength of the electron beam, electrons could be made to reach (and illuminate) either or both phosphor layers, typically producing green, orange, or red.
Other graphical displays used storage tubes including Direct View Bistable Storage Tubes ( DVBSTs). These CRTs inherently stored the image and did not require periodic refreshing.
Color tubes use three different materials which specifically emit red, green, and blue light, closely packed together in strips, (in aperture grille designs) or clusters (in shadow mask CRTs). There are three electron guns, one for each color, and each gun can reach only the dots of one color, as the grille or mask absorbs electrons that would otherwise hit the wrong phosphor.
The outer glass allows the light generated by the phosphor out of the monitor, but (for color tubes) it must block dangerous X-rays generated by the impact of the high energy electron beam. For this reason, the glass is made of leaded glass (sometimes called "lead crystal"). Because of this and other shielding, and protective circuits designed to prevent the anode voltage rising too high, the X-ray emission of modern CRTs is well within safety limits.
CRTs have a pronounced triode characteristic, which results in significant gamma (a nonlinear relationship between beam current and light intensity). In early televisions, screen gamma was an advantage because it acted to compress the screen contrast. The gamma characteristic exists today in all digital video systems. However, in some systems where a linear response is required, as in desktop publishing, gamma correction is applied.
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