DE587478C - Process for taking pictures in natural colors - Google Patents

Description

For the reproduction of pure colors, especially spectral colors, without the addition of Color filters are used the so-called Lippmann process, in which the photosensitive. Recording material over a reflective layer, for example Mercury, is arranged.

The effect of this recording process over a reflective layer is based on that the rays passing through the photosensitive layer differ from the specular Layer are reflected. This creates standing waves with knots and Bellies. vjune consequence of these standing waves is that the photosensitive layer is divided into individual blackening layers whose distance from one another is equal to half a wavelength. When looking at the developed Photographic against a dark background in striking white Part of the light is reflected on each of the blackening layers. Falls The different wavelengths have light of the same wavelength as when the picture was taken reflected waves have a phase difference of, a whole or several whole wavelengths. The reflected waves thus reinforce each other. not Matching wavelengths, on the other hand, do not reinforce each other, but they do. weaknesses himself off. The image therefore appears in the spectral color used for the recording.

This method is therefore well suited

for recording spectral colors, but not

to take a picture in natural colors, because these are all mixed colors are. Several wavelengths act at the same point on the recording material one, and there arises a more - diffuse blackening of the whole strength of the photosensitive Layer. Mixed colors, especially those that consist of numerous spectral colors, are therefore identified by the Lippmann's method ■ poorly reproduced. '

According to the invention, the lifelike recording and reproduction of mixed colors with the aid of Lippmann's method is also possible if the rays emanating from the subject are spectrally broken down in a known manner before they act on the photosensitive recording material. Thereby to use a grid through which the image surface is divided into individual dots, and so on receives the photosensitive layer between the individual picture elements free Räpme to which the spectra associated with the picture elements are recorded. As a result of the spectral decomposition, it is achieved that only one specific wavelength acts on each point of the light-sensitive layer. When these spectra are recorded over a reflective layer, an image is obtained in which, when viewed from above, spectra result in the same relative intensity distribution of the various spectral colors as the natural ones recorded

Movie

Colors match. If one chooses the length of the individual spectra so short that at considering the length of a spectrum just a few photosensitive elements of the The retina of the eye is covered, so the spectral colors of the image become physiological too the original natural color mixed.

In the drawing is the implementation

ίο the arrangement required for the process is shown schematically.

The rays emanating from the subject A ₁ G fall through an objective O onto a grid R. Behind this grid, the rays are collected by a collector K and then passed through an objective O ₁ and a prism P onto the light-sensitive panchromatic layer LS , which is on a reflective layer SS . In the case of the grid R , the rows of the transparent points DP are arranged offset from one another. The opaque intermediate spaces Z between the rows of points are chosen to be just as large in the direction of the spectral decomposition as the designed spectra.

Claims (1)

Claim: Method for recording images in natural colors, in which the recording material is arranged according to the Lippmann method over a reflective layer, characterized in that the recording object (AG) is subdivided by a fixed point grid (R) with mutually staggered rows of points, which is divided by it outgoing rays are spectrally broken down by a prism (P) or the like and then the obtained spectra are recorded on panchromatic recording material (LS) over a reflective layer (SS) . For this purpose ι sheet of drawings