The primaries are added together in varying proportions to reproduce a linear gamut ofcolors, which can reproduce only a fraction of the colors possible with atrichromatic color space.
The appearance of thecolor gamut changes depending on the primary colors chosen. When the primaries arecomplementary colors (e.g. red and cyan), then an equal mixture of the primaries will yield a neutral color (gray or white). However, since red and green arenot complementary colors, an equal mixture of these primaries will yield yellow, and a neutral color cannot be reproduced by the color space.
Until recently, its primary use was in low-costLED displays in which red and green LEDs were more common and cheaper than the still nascentblue LED technology. However, this preference no longer applies to modern devices.[citation needed] In modern applications, the red and green primaries are equal to the primaries used in typicalRGB color spaces. In this case, the RG color model can be achieved by disabling the blue light source.
The additive RG color model showing the primary colors. Overlap area is an equal mixture thereof (yellow), not white.
Thesubtractive RG color model uses red and green filters for film exposure, but complementary cyan-green (for red) and orange-red (for green) for the developed prints. This allows the generation of white, although the color model cannot achieve black, regardless of the primaries chosen. It was used in several processes during the early innovations of color photography, including onBrewster Color I,[10][11][12][13]Kodachrome I,[14][15][16] Prizma II,[17] andTechnicolor II.[18][19][20]
The subtractive RG color model showing the primary colors. Overlap area is dark brown, not true black.
The subtractive RGK color model showing the primary colors, but where the mixture is obfuscated by the black channel.
A similar color model, calledRGK adds a black channel, which allows for the reproduction of black and other dark shades.[21] However, it does not allow the reproduction of neutral colors (gray/white) because the primaries are not complementary.
Outside of a few low-cost high-volume applications, such aspackaging and labelling, RG and RGK are no longer in use because devices providing larger gamuts such asCMYK are in widespread use.
In 1858, in France,Joseph D'Almeida [fr] delivered a report to l'Académie des sciences describing how to project three-dimensional magic lantern slide shows using red and green filters to an audience wearing red and green goggles.[1] Subsequently he was chronicled as being responsible for the first realisation of 3D images using anaglyphs.[22]
Red-green anaglyph glasses
Red/Green anaglyph picture
Constellation of Scorpius in 3D anaglyph for red-green glasses. The perception of depth depends on how the image is scaled.
3D image taken by ESA's Mars Express orbiter. The location is on the Martian equator north of Valles Marineris between 1° South to 2.5° North and 323° East. The area is 50 km across and shows mesas and cliffs as well as flow features indicating erosion by the action of flowing water. In this landscape view North is on the right. The 3D effect is only seen with the use of red/green 3D glasses.
^Capstaff, a former portrait photographer and physics and engineering student had already worked on colour photography before he joined C.K. Mees and other former Wratten and Wainright employees in their move to Rochester in 1912–1913 after Eastman had bought that company to persuade Mees to come and work for him.
Color vision.