CS213841B1 - X-ray image intensifier - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a high-contrast X-ray image intensifier.

Current types of X-ray image intensifiers consist essentially of a glass bulb, exhausted to a high vacuum, in which the spherical curvature support is placed in its inlet part and a luminescent layer is deposited on its concave side. A semi-transparent photocathode is formed in close contact with the luminescent layer. The imaging electroptic system consists of an anode and a focusing electrode. A voltage of e.g. 25 kV is applied between the cathode and the anode. The function of the X-ray brightness amplifier is that the X-ray beam impinges on the luminescence layer and the photocathode transforms the visible image into an electron image, which is accelerated, reduced and transformed into a visible image with greatly enlarged magnification I am. A serious drawback of the present concept is the parasitic emission of the photocathode caused by the scattered light impact from the output luminescent screen. The light of the output luminescent screen penetrates the glass plate into the space for further optical processing. Some of the light is reflected on the polished surfaces of the plate and, by a light effect, spreads in the glass bulb walls and penetrates into the vacuum tube area in exposed areas. Electron emission of the photocathode caused by scattered light causes an increase in brightness on the output luminescence screen, which does not participate in the actual creation of the image and thus significantly reduces the contrast and resolution ability of the resulting image ·

213 841

213 841

These disadvantages are overcome by the X-ray image intensifier of the present invention, which consists in that the inner side of the plate from the exit screen through the inner side of the cylinder to its sealing with the flask and the outer side of the plate from the plan view its melting β flask is provided with a light-green coating that can be formed by metals and metal oxides dissolved in glass *

The advantages and the higher effect of the invention are that by removing the parasitic emission of the photocathode caused by the scattered light impact from the output luminescent screen, a significantly higher contrast and better resolution of the resulting image is achieved.

The image intensifier of the X-ray image according to the invention is schematically shown in the attached drawing.

In a glass bulb 1, exhausted to a high vacuum, an aluminum support 2 is placed in the inlet part with a spherical curvature and a luminescent layer 3, made by evaporation, e.g. by vacuum evaporation, is applied on its concave side. created semi-transparent photocathode 4, eg type Sb - Ha - K - Ca. An anode g is fastened to the outlet side of the flask 1 and a sharpening electrode 6 is formed on the inner wall of the flask 1. The output screen 7, formed by a luminophore of e.g. ZnSCdS / Ag type, is applied to the inside of the plate 9 which is Both sides of the cylinder 8 and the peripheral portions of the plate 9 are provided with a light-proof coating 10. The colorant of the light-proof coating 10 must satisfy the basic conditions for use in vacuum, in particular its main functionality, i.e. the maximum absorbency in the region. spectral radiation of the luminescent screen J. The desired properties can be achieved by mixtures of metals and metal oxides soluble in the glass at high temperatures. Metals and metal oxides are suspended in a suitable medium such as volatile electric oils. The glazing thus formed is applied to the designated areas of the plate 9 and the cylinder 8, the glazing layer is dried slowly and then heated to the tempering temperature of the glass used. At this temperature, the process of dissolving metals and metal oxide into the glass takes place, and thus its coloration. After cooling, removal of the glaze residue and after careful washing, the luminescent screen is applied Ί »the anode g is assembled and the cylinder 8 is connected to the flask 1 by sealing 11. The light absorption edge of the glazed glass is at 650 nm, i.e. light coming from the output luminescence screen 7.

Claims (2)

SUBJECT OF THE INVENTION An x-ray image intensifier formed from a depleted bulb having a photocathode X-ray input luminescence screen and an output luminescence screen disposed on a glass cylinder plate, and an electron optical system for accelerating electrons to the output luminescence screen, characterized in that: the inner side of the cylinder plate (9) from the exit screen (7) through the inner side of the cylinder (8) to its sealing (11) with the flask (1) and the outer side of the panel (9) from the plan view of the exit screen (7) over the outside of the cylinder (8) to its melting (11), the β flask (1) is provided with a light-green coating (10). X-ray image intensifier according to claim 1, characterized in that the light-tight coating (10) is formed by metals and metal oxides dissolved in the glass.