التصوير الملون بطريق الإضافة ١_a .. كتاب التصوير الملون ، الكاتب عبد الفتاح رياض

Chapter four

Additive color photography

Additive color process

Color Separation and then re-adding them to form an optical color image:

If all the colors that we perceive in nature with our eyes can arise from mixing the three primary colors (red, green, and blue) in different proportions, then there is no doubt that we can create new colors similar to matching the colors of nature if we know these proportions, by analyzing the colors of nature into their elements. Elementary, (which is red, green and blue), separating each of them alone from the other two, and then reassembling these elements in the same proportions that they were originally in nature. It was obvious - during the stages of color imaging research -

The search began for a way to separate the elements of natural colors from each other, keeping their original proportions, and this goal was achieved by photographing three consecutive times, on three sensitive films, with the use of three color separation filters. Photography is done the first time through a red filter in front of or behind the lens (Fig. 32), in the second with a green filter, and in the third with a blue filter. The colors of these filters must be very pure, as the filter does not allow any other light waves that are contrary to its color to pass through it. However, in practice it may not be possible to achieve with L

This condition is in the ideal form that we require (and we will come back to explaining this in detail in a next chapter).

After photographing and showing these pictures, we get three negatives, black and white. The first negative represents the amount of red that the photographed subject carries, while the second represents the amount of green that the subject carries, while the third represents all the blue colors in that subject. And since each negative separated only one color from the primary colors (red, green and blue) by means of which any color could be formed in the subject being photographed, so work was done to name these images under the name of Color Separation Negatives

(fig. 32)

A simplified method for making swatches for melted filters of the three primary colours.

Part “a) consists of two pieces of cardboard glued on one side only, and 3 regular circular holes are hollowed out in them. And fixed between the two cardboard papers in front of each slot is one of the three primary color filters (red, green, and blue).

As for Part “B”, it bears Part “1”, and it is nothing more than two pieces of wood or metal (matte black), and the middle of them is emptied in the form of a circle similar in diameter to the circles referred to in Part E, and between the two pieces of wood there is a separating distance, It is enough to slide part (1).

As for this part “B”, it is fixed by one means or another in front of the lens when photographing in order to obtain the advantages of color separation, or it is fixed in front of the magnifier when it is desired to enlarge color images and correct them according to the method of addition, which we will talk about at the time.

Even if the intensity reaches its maximum (so that the color appears completely black), this will indicate the complete absence of the first color.

Then comes a new stage that aims to reassemble the three primary colors - according to the correct proportions - to form a new colored picture that is similar to matching the original colors in nature. This is done by placing the previous three positive images, each of them, in a separate projector with a lamp that emits completely white rays (in a manner similar to what is shown in Figure 2 p. We obtained it from the print of the negative that we photographed through the red filter: ., it is the same that is placed in the projector with the red filter. Those that we obtained from the negative print that recorded the green colors, must be placed in the display device that carries the green filter. Likewise for the third monitor carrying the blue filter. And when the three colored images (which are emitted by the three display devices) are collected together on the projection screen, a single color image will be formed that bears the same natural colors that we saw in the subject that was photographed in nature, and this appears clearly in the upcoming colored paintings.

And since the process of forming the color of the final image has been done by adding the primary colors to each other, so I named this method as «forming colors by adding color process». And since the success of the color images taken from the negatives of color separation depends on their agreement in each of their degrees of contrast and intensity, therefore it is feasible to place a gray tape at the edges of the subject to be photographed, so that the image of this tape appears in each of the three negatives. . The balance in contrast and intensity is available in the three negatives (or in the positive images later), if the degrees of intensity and contrast are equal in the image of this strip in the three negatives. D

Since it is not possible for the human eye to correctly judge these properties (which are density and contrast), therefore it is highly advisable to use a densitometer.

Likewise, it is highly recommended that any sign or alphabetic letter be placed on each image indicating the color of the filter that was used in each image, in order to facilitate identification of the three images.

With regard to colored subjects in which the fidelity of the transfer of colors has the first place (such as the conditions of photographing colored oil paintings), it is also necessary to include within the borders of the image a small colored card that combines each of the primary and complementary colors, and white and black as well. This is to use this card in judging the extent of the integrity of the color transmission in the image. That is, to judge the extent of its agreement with the original colors in nature. From the foregoing, we find that the necessary first stage for the production of color images must begin with the preparation of “the negatives of color separation.” We have noted - previously - that these negatives were prepared by photographing the same colored subject three times on three separate films, with one colored filter (from the three primary color filters) placed in front of the lens each time. However, it is clear that this method was not It is not suitable at all unless the subject being photographed is completely static, and therefore the innovators' minds sought to manufacture special cameras and films that would facilitate obtaining color separation negatives even if the desired subject was moving.Then improvements were made in both machines and films to be used in cinematography as well. Even if the method of addition in the production of color images according to the description we mentioned, it is possible to ensure the transmission of colors very faithfully, especially after the progress in controlling the spectral sensitivity of films in the modern era, and the development D