SU626454A1 - Mosaic photocathode - Google Patents

Description

one

The invention relates to the field of technology associated with the creation of photodetectors that provide the coordinate resolution of radiating or reflecting objects.

A photocathode is known, consisting of several sectors separated by a direct current, which is used in vacuum photodetectors with a coordinate resolution of 1.

The disadvantage of this photocathode is the low coordinate resolution.

Also known is another mosaic photocathode containing a translucent metal substrate and a photoemission layer 2.

The substrate of the mosaic photocathode consists of two isolated from each other systems of electrodes in the form of translucent metal strips with separate DC terminals. Inclusion of any local section of the photocathode is carried out by applying such control voltages to the undercutting electrode systems, in which an accelerating voltage is formed between the photocathode surface and the positively charged accelerating grid in this area, while the rest of the photocathode is locked against same accelerating mesh.

The disadvantage of this mosaic photocathode is the high switching voltage and low reliability of operation.

The aim of the invention is to reduce switching voltages and increase reliability.

This goal is achieved by the fact that the substrate is made in the form of flat parallel and isolated from each other strips, and parallel to the surface of the photoemission layer there are separated metallic iiti insulated from each other, the direction of which is iperidicular to the strips of the substrate.

The drawing schematically shows the proposed photocathode.

Semi-transparent metal strips 2 with a step hk and a gap between them are deposited on glass 1. The bands have leads 3. A semitransparent photoemission layer 4 is applied to the strip substrate, which, depending on the technology of its creation, is silent to be either continuous and therefore close the gaps between the stripes, or in the form of stripes covering only the substrate stripes. At the distance d from the photoemission layer perpendicular to the Rio bands, metallic threads 5 with a pitch he are separated from the strips of the subarm, from which it also has a conclusion.

The work of the mosaic photocathode is as follows.

When applying to all the stripes of the substrate, except for the lth, and to the mth thread of the grid of positive potential, and to the lth strip of the substrate and to all the filaments of the grid, except for the / nth, negative potential, the entire photocathode is locked in addition to the local area corresponding to the intersection of the nth strip with the / nth thread of the grid.

The linear dimensions of the photocathode absorption region depend on the sizes hh, d, he and, if they are equal, they are approximately equal to them. Calculations on a computer performed by a three-dimensional program showed that at hk 0.5 mm, the inclusion of an arbitrary element of the mosaic photocathode of the pre-designed construction is carried out with positive and negative potentials equal to 20 V and - 20 V.

The proposed mosaic photocathode. Can find application in photomultiplier tubes and vacuum photodetectors, which provide coordinate resolution of radiating and reflecting objects, i.e., oi ..,., Systems

4 communications, locations, ranging

tichesi etc.

Claims (2)

1. Gulgazar and KA. Coordinate-sensitive photomultiplier tubes, - “Instruments and Experimental Techniques, .NO 3, 1973, e. 184-187. 2. Authors certificate of the USSR .YO 485509, cl. H 01J 39/06, 1975. Ah