DE666998C - Method for investigating the afterglow of fluorescent materials - Google Patents

Description

Method for investigating the afterglow of fluorescent materials The invention relates to a method of short-term afterglow of phosphors to measure continuously in terms of duration and intensity.

In the past, when producing phosphors, efforts were usually made to obtain substances that lasted for a particularly long time. Accordingly, for the investigation of the afterglow of such phosphors, an arrangement given by A. Werner (Annal. D. Phys., 4th volume, Vol. 24, 1907, p. 164 ff.) Was sufficient, with which the decay of the phosphor arbitrarily chosen times after the end of the excitation was determined photographically in the following way. In a light-tight box, a powdery phosphor, housed in a flat metal box open on one side, was excited by means of ultraviolet light. The phosphor was then approximated to a photographic film to within a few millimeters, and the intensity of decay was deduced from the blackening of the film.

In more recent times, especially through the development of television, Measurements on phosphors which luminesce for a very short time became necessary. Because the time it took for the Werner arrangement to convert the phosphor to the film to move towards, it was not possible to stop the fading immediately after measure arousal; this also resulted in only a discontinuous intensity measurement possible. With the Werner arrangement, the measurement of the decay could at the earliest begin only 20 seconds after the end of the excitement, while z. B. for television purposes because of the sequence of 25 images per second only afterglow measurements interest up to i / 25 seconds after the end of the excitation.

A remedy is provided by the method according to the invention, according to which at the same time several samples to be compared from my evacuated pipe on a carrier, especially a disk, under the same excitation conditions for all phosphors once briefly coated with cathode rays, then the afterglow Continuously with no interval between the end of the excitement and the afterglow is recorded on moving photographic material in such a way that at the same time the The duration and the decrease in intensity of the afterglow can be determined. The record of luminous processes on a rotating cylinder covered with photographic film is in itself z. B. known for measuring light sparks. In the drawing is one Device for performing the method according to the invention shown.

As a carrier for the phosphors to be examined and for the causative agent of the same a modified Bratin tube is used (see Fig. i). The tube a contains the usual Television system. The removable screen wall b consists of a pane of glass on which The test substances are applied on the inside in point form (see Fig. 2). These Like television, the disk is made by an electron beam scanned.

At a distance of about 1 mm from the fluorescent screen b (cf. Fig. I) outside the Braun tube of the Schxe drum container c. This is on the side facing the screen (see Fig. 3) in a vertical row of i o holes about the size of a television picture element, that is, z. B. 1J4 qmm, provided, g. At the. chosen example are thus by the electron scanning all 40 points on the screen are stimulated to glow, but only the io substances which are in front of the vertical row of the drum case their light on the photographic film in the container throw covered writing drum d. The drum is driven by a synchronous running Motor with z revolutions / sec. driven. During each revolution it is through .a slide located on a feed spindle by i mm in the direction of shifted bottom up so that the photographic film attached to it from the light of the phosphorescent points in helical lines 1 mm apart is exposed. . Since each of the covered with Pho.sphores.zenx mass. Points only while about 1 / 100000o sec. is excited, practically only the afterglow is recorded, and contrary to earlier methods, without an intermediate period following the excitation.

- The afterglow of the first vertical row is now applied io phosphors on the film in: shape of i o subordinate helical lines (cf. Fig, q.) has been recorded photographically, the developed and Fixed film placed on graph paper as a scale base. The afterglow period each phosphorescent point is then based on the number of those that belong together Lines as well as the length of the first and last LY guidelines of each group / on one The scale to be attached to the graph paper (see # $.) b. q.) quickly and easily readable. To check the second vertical row of the screen, the Braun's tube moved laterally by a few centimeters on a slide until the dots in this row are in front of the smile g of the drum case. Then the fluorescent surface is illuminated again and the afterglow of it i o new phosphors, as described above, on a new one on the writing drum tensioned film recorded and measured.

The intensity of the afterglow can be determined using those described Measure the arrangement by looking longitudinally along the lines of light recorded on the film translucent photometry.

Claims (1)

PATENT CLAIM: Method for investigating the afterglow of fluorescent materials, especially for television purposes, characterized in that at the same time several samples to be compared in an evacuated tube on a support, in particular a disk, once briefly with the same excitation conditions for all Cathode rays are streaked, then the afterglow without any interval between the end of the excitement and afterglow continuously on moving photographic Material is recorded in such a way - that - at the same time the duration and the decrease in intensity the afterglow of all substances can be determined with exactly the same excitation.