DE1622474A1 - METHOD OF MANUFACTURING A LIGHT POLARIZER - Google Patents

Description

M ϋ N C il ϊ "\ · " on · 1 A OA QQA

SchW £ iG ^ ai _T a _a ⁹⁰ . , 1A-24 880

. July 18, 1972

description

to the patent application

polaroid corporation

Sxcbange Place, Jersey City »H.5t · USA

concerning
Proceed to make a monitor

The invention relates to a method for the production of a liclitpolarizera alt a polarizing layer on a carrier and optionally a cover layer »when a material is deposited on the carrier in strips anisotropically in the form of fine particles.

In "Amialen der Physik" 1905 * pages 1 to 19 and 238 to 277 investigations were described about the trial, whether the visible light also has the ilatui »electromagnetic waves. excited and applied thereto a voltage »by sputtering. ie melting of the wire by converting electrical energy into thermal energy _{t of} the metal wire, a metal separation took place on the glass plate with strip-like changing properties and metal dust strips forming perpendicular to the wire axis

3098217035a

New © documents (Art. 7 S ι Par. 2 No. 1 Sate 3 deslnderunaeaea, v, * SM9S7J · BADORiGlNAL

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Stripes are examined to see whether they are polarizing

Have areas. Some investigations have also been electric and magnetic fields brought into effect in the wire explosion without this changing the Results led. This is not surprising either, since we are talking about the atomization of the material, i.e. small ones Melt droplets are produced by electrical or magnetic Fields are not distractible. Such areas became very local limited ^ determined. A useful polarizer could and however, should not be made this way.

From the "ABC of Optics" 19 & L under the keyword "Kundt's mirror" it is known to produce a conical metal mirror by sputtering a wire electrode · in a vacuum »This shows birefringence, the oscillation arms of which run radially and tangentially in the mirror. The size of the birefringence increases from the center to the edge, but then decreases again. ■. - -. ·

The oldest polarizers are so-called Gitt $ _r polarizers in which metal wires or pieces of wire are arranged so as to allow polarization of the incident light. These polarizers required very careful and extensive manual labor, were very careful to handle and only produced in small units. They were only suitable for polarizing certain wavelengths and found no technical application. An improvement of the old grid polarograph consisted in producing a grid of microscopically fine elevations on a support and vaporising it with a metal in the transverse direction, but the production of the grid was again associated with all the uncertainties of such a difficult manual work. Finally, 10,000 to Apply 100,000 lines per inch. At that time, the evenness of the vapor deposition on such grids also left a lot to be desired.

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New documents (Article 7§1Ab3.2Nr.lSatz3desAndsrunsäges. Of September 4, 1967). ~~ ".. · '" BADORtGiNAt

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A further advance in the manufacture of polarization filters was achieved by using colloidal filters on supports Binder dispersions of double-brooding crystallites applied and aligned this in the binder (DP 685 816, Z.f. scientific. Photography 1955, Vol. 50, II, pp. 530-533). This was done either with the help of a magnetic field or by extrusion of the embedded in a plastic mass Crystallites j whereby, after the embedding material has solidified, the aligned crystallites are fixed in their position relative to one another became. Of course, only limited light polarizers can be produced with this method. the The possibilities for variation are few, the uncertainties and inaccuracies of the optical obtained on this basis G devices considerably.

After all, it is from the "ABO der Optik, 1961, page 457" known to arrange a birefringent film (.V4 plate) behind a polarizer so that the Sohwingungsriohtung of the polarizer is less than 45 ° to the direction of oscillation of the film. In this way, circularly polarized ones are obtained Light.

The object of the invention is to simplify and improve the production of polarization films of large dimensions, their length practically unlimited and their width limited only by the apparatus * those discussed above known polarizers can either only be produced in the smallest surface areas or duroh extrusion presses The films obtained do not show those for large-area films necessary homogeneity.

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New documents (Art 7, Section 1, Paragraph 2, No. I, Clause 3 of the Amendment Act of September 4, 1967]

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The solution to this problem is "in a method of the specified Kind given by the fact that in a vacuum the vapor stream of the material at an acute angle on a rough surface of the carrier and the material is deposited thereon, and during the deposition the carrier slowly in one direction is moved.

The materials to be deposited anisotropically can be a metal, a metal salt, carbon or a dye. The acute angle is at most 25, expediently about 5 °. If you want to produce a circular polarizer rather than a linear polarizer, then a birefringent material is vapor-deposited onto the strip-vaporized polarizing material in a directional orientation of 45 ° to the longitudinal direction of the strips of the polarizing material . Either the transmitted light vector or the reflected light vector can be polarized. Can also be used in combination with. photoelectric substances or photosensitive substances build new optical systems. Finally, it is possible to produce images that also convey a stereo impression by being arranged several times on top of one another. The method according to the invention for producing the polarizers has a remarkable range of variation. S: ö pieces of any size, but also endless lengths, can be produced. Such a possibility of variation both with regard to the desired properties and their ^l constancy as well as the production conditions could not be achieved with the known processes.

The polarizers produced according to the invention are distinguished by a particularly high dichroic ratio, i. i. the ratio of the light absorption of two on top of each other

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New documents

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arranged linear polarizers with one polarization axes parallel and the other with crossed polarization axes. Bs can be over 15. The dichroic "relationship of the polarizer increases with an increasing ratio of the transmitted Beam to the spacing of the strips.

The polarizers obtained according to the invention can be used for a or several wavelengths of the visible or invisible

• Spectrum including the near and far infrared being constructed. Bs can transmission pole risers, Reflective polarizers and also interference polarizers. For this purpose, substances are used with the wearer very different Breohungsindiees in precisely defined Layer thickness vapor-deposited.

The polarizers produced according to the invention are based on a rough substrate * on which there is a anisotropic substance located in a streaky distribution, the streaks being oriented in one direction uiid in the are arranged at a distance from one another in the other direction. This distance is preferably less than the wavelength of the light to be palarized. It is well known that carrier materials like plastics or © las, not absolutely flat, but have a certain surface roughness, too if this is not visible to the naked eye. Usually the naturally existing surface roughness is the Carrier materials are sufficient so that in general no pretreatment for roughening is required.

Bai the oblique vapor deposition of a microscopically rough When the surface to be steamed moves forward, the substance separates anisotropically over the surface

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New documents (Art. 7, Paragraph 1, Paragraph 2, No. 1, Section 3 of the Amendment Act. V; 4.9. TS6U

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The surface roughness leads to a "shadow formation", viewed in the damping direction. Thus, strips of the vapor-deposited material are formed between the individual elevations of the carrier surface. As a result of the surface elevations, these are laterally separated from one another at a distance. The vapor deposition angle is selected as a function of ¹ on the surface roughness of the carrier material.

The vapor deposition can be uniform in the transverse direction to the film or can also be made differently, i.e. a certain possibility of variation in the polarizing properties of the film in its transverse direction. By appropriately dimensioning the outlet opening for the one to be evaporated Substance all desired gradations can be made.

With increasing layer thickness of the deposited material ± ä & transmission drops the shorter wavelength, until finally present öia polarizer only in the long wavelength range, that is in the infrared, is permeable. With the help of the variable vapor deposition time and temperature, the layer thickness and thus the transparency can be adjusted as desired.

If the vapor deposition material is a metal, part of the reflected light, which is at least partially polarized, in a different sighting as the transmitted light »How far the reflected Component is polarized depends on the angle of the polarizer against the optical axis.

As mentioned, the polarizers according to the invention are suitable with an appropriate structure also for interferencesj namely

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BAD u © documents JAfI " ί i para. 2 Wr. T sentence 3 of the amendment act . Of 4.9.196 ?!

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this for monochromatic and polycliromatisoh.es light, i.e. for the transmission and polarization of one or more bands. In this case, a substance with a high refractive index, in particular metal, is vapor-deposited. The layer thickness of the vapor deposition in the direction of the beam passage should be, for example, A / 2. In addition to metal, however, other substances with a high refractive index, such as silver bromide or carbon, can also be used.

If a circular polarizer is to be produced, then - how

double mentioned - a / equal substance, as far as it is transparent and is colorless, evaporated. Examples are zinc sulfide and Silver chloride. Another method of making a "circular polarizer" is by following the invention strip-like on an oriented, birefringent material with a corresponding interference ratio, e.g. ^ / 4 or // ,, performs the steaming. For example, you can do a piece Mica having an interference ratio in a direction of 45 ° to the optical axis of the G-mica piece for constructing a Polarizer "vaporize"

3iiie "is another possibility of the polarizers according to the invention to see in that phosphors, such as zinc sulfide, cadmium sulfide or caleium tungstate, deposited for the purposes of the invention will. If the vapor deposition takes place via a mask or a sieve, a pattern is obtained which is both polarizing and is also photoelectrically effective. Such a material is suitable, for example, for screens in television picture tubes.

If you want to produce a light-polarizing image according to the invention, a mask, stencil or a sieve is used a metal or a dye evaporated. Become two

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New documents (Article 7, Paragraph 2, Number 1, Sentence 3 of the Amendment Act of September 4, 2018 *; \

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Images slightly shifted against each other on a carrier, one on top of the other deposited, a stereo image that also appears three-dimensional can be obtained. A modification of this procedure lies in the fact that - without a mask - e.g. a silver halide or a diazo compound or other photosensitive Substances are vaporized. Such images can be produced in a simple manner and also as stereo images.

Apart from the metals already mentioned, such as aluminum, silver, platinum, palladium, gold, chromium, tungsten, iron, cobalt, Nickel or its alloys, carbon and organic dyes can also be used, e.g. Isoviolanthron CI 6000, Copper phthalocyanine CI 74170 »Direct blue 78 CI 74200. Bei When using dyes, the phenomenon of polarization is somewhat different from that of metal, the process conditions are however the same. The mechanism is not yet complete clarified. Using dyes one gets one. Appearance that can be called texture dichroism. It is a dichroism caused by different Refractive indices and absorptions between the strips and the environment due to periodic intervals of the Streak occurs. In addition, the self-dichroism of the dye can also have an effect.

To protect the vapor deposition layer against mechanical damage or impacts, they can be covered with a protective layer. Is the carrier glass and the vapor-deposited substances heat-resistant, like metals or metal salts, a glaze can be applied as a protective layer. With a plastic carrier you can pour on another plastic or a lacquer or otherwise distribute over the surface »The material only has to correspond to the optical conditions.

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New documents (Art. 7, Paragraph 1, Paragraph 2, No. I, Clause 3 of the Amendment Act of 4. 9-1967 »

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It goes without saying that one in the rooms of the invention Process one or more substances one after the other or can deposit at the same time. You can also use other substances that affect the optical properties of the polarizer do not influence it, bring it with you to the separation.

The invention will now be explained in more detail using the following figures will.

Jig. 1 is a schematic side view of the device for Implementation of the method according to the invention, with individual parts broken away and others pulled out.

Fig. 2 shows in detail a (hatchet of the light polarizer according to the invention. '-.

In the device for carrying out the method according to the invention according to FIG. 1, a transparent carrier film 10, for example made of polymethyl methacrylate or polytrifluorocarbon ethylene, is moved forward in the direction of arrow 12 with the aid of drive units (not shown). For example, a metal such as aluminum or silver or a dye powder, essentially across the width of the foil 10, is arranged within an electrical heater 16 which extends across the foil 10. It is vertically adjustable and rotatable within the with the aid of the grooves 20 Slits 18 are fixed in the frame 22 for the angular adjustment of the nozzle 16a with respect to the surface of the film 10. The slot or opening 16a is downwards at a small angle to the plane of the film 10 _f 2.B. 5 °, set up so that the steam 14a of the strip 14 reaches at this angle on the surface of the film 10 and the

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Documents in accordance with Article 7, Paragraph 2, Number t, Clause 3 of the deaÄiiderungsiies.v.4. P.19

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Material 20 is deposited. The whole thing is in chamber 24 including in which high vacuum prevails. The suction pre- directions are not shown. The chamber or bell 24 has Slots 26 with seals 28 for the passage of the film 10 on «The advance of the film 10 can take place continuously or in steps.

After the strips 32 (FIG. 2) have been deposited on the surface of the film 10, a binding and protective coating 34 made of a transparent plastic or lacquer is applied. This can consist of a similar material and preferably with a similar refractive index as the carrier film; for example, is it applied with the aid of the slit 36a of the container 36 (Figo 1) _t the heater 38 and the fan 40 are used for fast drying and Yerfestigung of the top layer 34 'In this way, one obtains © inen linear polarizer "- may trimmed as desired and can be treated further depending on the instructions. The parts of the vapor-deposited substance that were deposited on the surfaces of the surface roughness inclined towards the shark aggregate do not seem to have a detrimental effect on the quality of the light polarizer, but in some cases even to improve it Steam flow guide elements such as slots or nozzles in the sense of FIG. 1 can be used. Different optical properties can thus also be achieved over the transverse direction of the polarizer.

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Documents (Art 7 § % from% 2 Ur. T sentence 3 of the Sndeninasgea. V. 4.9.

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For the production of a light polarizer according to the invention in The following process steps were not continuous carried out:

A plate - 2.5 x 7.6 cm - made of soda glass was placed under a Vacuum bell "attached, in such a way that an angle of 5 ° between a line between a piece of aluminum in the heating unit and one in the plane of the glass plate over-the Middle extending line is intended. Vacuum from 10 to

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10 torr was maintained. The aluminum was on 660 G heated and deposited within approx. 15 seconds. It No guiding sheets or guiding devices were used. In this way one gets around this central area of the polarizer streaky surfaces, but more blurred and curved in the outer areas. The density was satisfactory and the transparency not selective, the dichroic Ratio was 15

Patent claims

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New documents (Art 7, Section I, Paragraph 2, No. 1, Clause 3 of the Amendment Act of 4. 9.196 /

Claims (5)

Pat 1. Method of making a light polarizer with a polarizing layer on a support and optionally a cover layer in which a material is on the support is deposited streaky and anisotropic in the form of fine particles, characterized in that in a vacuum the steam flow of the material at an acute angle to a rough surface of the carrier is directed and the material is deposited on it and during the deposition of the carrier is moved slowly in one direction. 2. The method according to claim 1, characterized in that the material is a metal, metal salt, Carbon or a dye is used. 3. The method according to claim 1 or 2, characterized g e mark It is worthwhile that the acute angle is up to a maximum of 25 °, preferably about 5 °. 4. The method according to claim 1 to 3, characterized g e mark e refuses to put a translucent, stabilizing and / or protective cover layer on the material is applied. 309821/0356 New documents (Art. 7 <§ T Paragraph 2 No. I Clause 3 of the Amendment Act of 4.9. S9S .. 1622-74 ■ J * - 1A-24 880 5. The method according to claim 1 to 3, characterized g e k e η η draws that on the material a birefringent Material in a directional orientation 45 ° to the longitudinal direction the strip of polarizing material is evaporated. New Uliterlayen iAfS. 7 5- | AU », a Hr. l Seat 3 of the amendment act. v. 4.9. OK5. Blank page