SU785903A1 - Electron gun - Google Patents

Description

the sides of the dielectric washer 4 having a channel 5 with an axisymmetric recess 6 in the middle part, the geometrical dimensions of which are characterized by the above ratios.

The device works as follows.

The electrons emitted from the cathode 1 move in the direction of the anode and under the action of the electric field of the immersion objective, made up of the cathode, modulator and anode, are focused in the area between the cathode and the anode, forming a crossover. The divergence angle of the beam at the gun exit can be limited to the desired value by the diaphragm located behind the anode.

The degree of charging of the dielectric surface in the channel between the modulator and the anode and the effect of the charged surface of the dielectric on the electron beam will be the stronger, the closer the surface to the beam axis (channel axis) is located. This will lead to a decrease in the permeability of the gap between the cathode-modulator and the intensity of the electric field in the cathode region, which leads to a deterioration of the instrument parameters, in particular, the resolution, decreases.

To reduce the undesirable effects of these factors, it is necessary to remove the channel surface from the axis of the beam with unchanged dimensions of the holes in the modulator and anode. In the case of a thin-film modulator and anode, it is possible to remove only a part of the channel surface from the axis by expanding in the middle part of the channel in the form of an axisymmetric recess of one or another profile. At the same time, the length of the channel sections without expansion should also be minimal. It is determined by the mechanical strength of the material of the dielectric substrate.

An example of a specific embodiment may be an electron gun for a vidicon. Its geometrical dimensions can be as follows: the distance between the cathode and the modulator is 0.1 mm; the distance between the modulator and the anode (thickness of the dielectric substrate) is 0.6 mm; radii of holes in the modulator, anode, and channel radius 0.5 mm; the maximum radius of the axisymmetric notch in the channel is 0.75 mm; notch length 0.2 mm.

As the tests showed, with the specified geometry of the gun, the electrical strength of the gap between the modulator and the anode increased by 2 times compared with the prototype, and it remains in operation, and the force acting on the electron beam from the side of the charged dielectric surface decreases by about 2 times. This leads only to a slight decrease in the permeability of the gap of the cathode-modulator, which can be neglected.

The use of an electron gun in television tubes and other electron-beam devices will improve the reliability and stability of their work by reducing the effect on the operation of the gun channel charging the surface of the channel for the passage of an electron beam in a dielectric between the modulator and the anode, as well as by increasing the electric strength.

Claims (2)

1. An electronic gun containing a coaxial cathode and anode-modulator assembly, made in the form of a dielectric washer with thin-film electrodes deposited on the end surfaces, characterized in that, in order to increase the stability of the gun parameters by reducing the influence of surface charge in the channel of the washer, the channel is made with an axisymmetric recess with a maximum diameter exceeding the diameters of the channel at the ends of the plate. 2. An electronic gun according to claim 1, characterized in that said maximum the diameter of the notch is at least 1.5 times the minimum diameter of the channel, and the longitudinal size of the section of the channel with the notch is at least half the thickness of the washer. Sources of information taken into account in the examination 1. Zhigarev A. A. Electron optics and electron beam devices. M., 1972. 2. US Patent No. 3629646, cl. 313-63, published. 1971 (prototype).