That's why other colours haven't been able to gain any hold. In addition, using the frequencies the eye is most sensible means the over all brightness (power used) can be turned down, further reducing manufacturing cost (and X-ray emission).īottom line, while a monochrome screen is not only the over all lowest cost solution, it also brings several advantages, with yellow/greenish colours being the optimum and a win win situation. In addition to this close and overlapping sensitivity the B&W receptors are fine tuned to 500nm for the highest differentiation.Īlso, lower frequency usually means lower energy input, thus the electrons need less acceleration which again results in less X-ray emission. Click monochrome from the type and modify the color by. Step three: Once the image is in gray, click the image tab again, select mode and click duotone. The human green sensors a best at 530nm, while the red ones are best at detecting 560nm. Step two: Select the image tab, click mode on the dropdown then pick grayscale. The spectrum between light (reddish) yellow (often called amber) and green (or more technical 600-500 nm) was a preferred one mainly due the way the human eye works: Also consistent molecule size (as in only one material) enabled a sharper focusing thus a better display. Screens here available with anything from light red to pale blue.ĭoing a single colour is much simpler than doing white (or multi colour), as it means only one type of emission coating is needed (like phosphor for green) thus making production less expensive than for white. In fact, doing white is more complex than just doing a single colour. The colour is just defined by the emission scheme of the fluorescent material used for the CRT. Beside green, amber and apparently gray, were other colors ever been in use by some obscure hardware ?
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