DE393762C - Method for eliminating halo in photographic plates - Google Patents

Description

Process for eliminating halo in photographic plates. The invention relates to a method for eliminating the halo.

For this purpose, up to now either two emulsion layers have been placed one on top of the other or a colored, light-absorbing layer between the emulsion and the emulsion carrier switched on or the back of the emulsion carrier with light-absorbing paints Mistake.

On the other hand, however, it is also known that all of these methods have still not produced a satisfactory result up to the hour.

The reason for this phenomenon, according to the inventor, is therein to seek that the plane-parallel glass plate carrying the photosensitive layer has its own ultraviolet and spherical wave radiation. Also for their elimination there is only one way: the absorption of radiation. However, after the atrium appears on both interfaces of the plane-parallel and transparent medium, The absorption must also take place on both sides and at the same time. Here But one must by no means be so familiar with those in the first century of photography commit mistakes that have become and an extra one in addition to the light-absorbing medium Look for refractive exponents, such as i) 1, acetone, sugar crystals, etc., as this means would lead straight away from the goal. Mathematics shows that the most transparent plane-parallel medium no halo can only appear if there is no refraction exponent possesses (refraction exponent = o # - n = o) or if the refraction exponent is an infinite is larger (refraction exponent cv n lim \;). But this is not achievable. As a result the halation must be limited solely to the absorption, i and this is also completely sufficient to achieve the goal, d. i. to maintain a completely halo-free plate.

For this purpose a light-absorbing substance must be used in a suitable manner can be applied to both sides of the plate. The best absorption agent is this natural black soot, especially since it absorbs any Nj'arms and visible vibrations, then the black color, which does not color the gelatine, or that of the three primary colors Red, yellow, blue i combined black. These need to be on both sides of the glass be applied. However, since you have to copy the transparency of the negative needed, one can accept the "half-result" already introduced in photography Take help ("half result" because it only absorbs one center, whereas the Influence of the other remains intact), d. i. those between 4 of the silver bromide emulsion and the glass has already been cleared from the atrium in the factory plate use one of the light-absorbing substances listed above on the back is applied.

Approved compositions for the latter are: i. Soot starch boiled down in paste, 2. concentrated nigrosine fuel solution in collodion, 3. black-colored concentrated fuchsine-luramine-methyl-violet-fuel solution in collodion, 4. black-colored concentrated erythrosine-auramine-methylene blue-fuel solution in collodion.

But since the atrium is caused by a selective emission, i. i. the monochrome ultraviolet radiation caused by the emulsion carrier can be seen as halation clearance can also be achieved through selective absorption. It must be noted, however, that although there is no absorbent substance that if it has any color of the Spectrum absorbed, at the same time not also safely from the neighboring district, towards the large or towards the small wavelengths, something would also be absorbed, neither is there such a selectively emitting light source which, if it emits any color of the spectrum, at the same time not yet off the neighboring part, towards the large or small wavelengths, a little would radiate. Accordingly, exist on earth for the selective absorption of the own selective emission of the photographic plate today only two substances as a whole: the aesculin, which is completely transparent in its solution, and the semi-transparent one Nitrosodimethylaniline. The tried uses would be the following 5. Focused Aesculin fuel solution in collodion, 6. Concentrated nitrosodimethylaniline fuel solution in collodion, 7. Mixture of the items listed under No. 5 and 6 described aesculin and nitrosodimethylaniline solution in collodion.

The proportion of the mixtures according to 3, 4 and 7 is case by case determined by spectral analysis.

But nothing may be given to the clearer of the atrium could interfere with absorption. But the technique demands the rigor of the theory compared to a small improvement.

Since the collodion on the glass dries up too tight and the later removal Therefore it is difficult! i, it is recommended that the same is very minimally fatty design so that it is easier to solve in Ätlier.

In theory, this would actually be a mistake after oils and fats also have a structureless structure and a refractive exponent just like the glasses placed on top of each other. rie number of refraction exponents would thus be an even greater one, but its presence has so little The extent to which it is used here has no further meaning, especially since the irn Glass itself is a danger because> maximum means.

That is why it is advisable to list the individual items from 2 to 7 Add castor oil to solutions in the well-known ice, and average 5 "drops per loo cm3. The black I @ lamb soot stick according to No. i are used as disinfectants Add j drops of carbolic acid (phenol) per 100 g.

All of the above preparations stain even after drying the glass neither the developer nor the fixing solutions. Their removal can therefore also take place after development. The collodion-like preparations can be used with a soaked in wier upd of the soot paste with a moistened Cloth to be wiped off.

It goes without saying that the present invention is not restricted on glass plates, but can also be used for all other transparent --- plane-parallel Materials such as celluloid, cellon, etc. can be applied.

This does not, however, limit the applicability of the invention. The atrial clearance can also be achieved in other ways.

Since, according to the inventor, the own radiation of the bromosilver emulsion plane-parallel and transparent medium through an external influence, d. H. due to the ultraviolet vibrations penetrating the camera through the lens, is stimulated, one must ensure that to the plane-parallel 3ledium latent potential energy is no kinetic added and this does not encourage activity. The experiment has indeed shown that if through an ultraviolet light filter in front of the lens of the M'eg i of ultraviolet rays is closed, no halo arises on the transparent plane-parallel hfedium.

Tried and tested compositions or uses of such light filters are the following B. Aesculin, g. Nitrosodimethylaniline, io. Combination of the under no. 8 and r) described light filter.

Claims (3)

PATENT CLAIMS: i. Procedure for eliminating the halo Photographic plates, characterized in that both the layer side as also the back or cassette side of the photographic plates by light-absorbing media be made atrium-free. 2. Execution of the method according to claim =, characterized characterized that on the back of the plate not reflective, but light-absorbing, easily removable spreads can be applied, while the layer side is the commercially available one Owns atrium exemption. 3. Modification of the method according to claim z and 2, characterized marked that the atrial clearance not only on the plate, but also by means of the attached in front of or behind the lens and made of Äskulin or Nitrosodimethylanili.n Or but accomplished atrial-free light filters produced from their combination will.