SU1051616A1 - Pulsed x-ray source with cold cathode - Google Patents

Abstract

PULSE X-RAY SOURCE WITH A COOL CATHODE, containing a evacuated cylindrical housing, at one end of which is a flat space anode, and no other - coaxial insulating lead with a cathode, filled with metal foil in the form of a metal foil tube and in order to increase durability and attenuate afOral radiation, the emitting end of the cathode is made in the form of a hemisphere with a hole bounded by a sharp edge, with the hole axis coinciding with the source axis, and the hole plane and parallel to the anode plane. ate oh yeah

Description

This invention relates to; X-ray technology and can be used in small-sized pulsed X-ray generators: CN devices designed for defectoscopy and X-ray diagnostics. A pulsed X-ray source with a sharp anode and a colloidal cathode is known. A device disadvantage is the South-South overheating and the anode is reflowed during long exposures. The closest in technical essence to the proposed one is a pulsed x-ray source with a cold cathode, c; c; holding a vacuum-evacuated chi, a pindric body, at one end of which is located a flat chamber, 1) an anode, and on the other a coque I isolate the input with a cathode made in the form of a tube of metal foil 2j. A disadvantage of the known devices is the significant wear of the cathode, which leads to an increase in the anode-cathode gap, reducing the number of cathode flares, reducing the dose per pulse and passes in response. In addition, afocal radiation affects the X-ray characteristics of the source, and the electron current that excites it, loads the pulse generator, reducing the voltage at the X-ray source. The purpose of the invention is to increase the durability and reduce afocal radiation. The goal is achieved by haem, which in a pulsed x-ray source with a cold cathode containing an evacuated cylindrical body, at one end of which there is a flat air gap THGBD, and at the other - a coaxial isolating input with a cathode made in the form of a tube made of metal foil, The end of the cathode1 is made in the form of a hemisphere with a hole bounded by a sharp edge, the axis of the hole coinciding with the axis of the source, and the plane of the hole is parallel to the plane of the anode. The drawing shows the design of the X-ray source, as well as the distribution of the electric field and the trajectories of electrons in the anode-cathode gap. The cold cathode pulsed x-ray source consists of a tungsten anode 1, it is the x-part part of a vacuum-tight body 2, a sealed insulating inlet 3, on which the cathode is installed in the form of a tube of metal (usually tantalum) foil 4. The spherical end of the cathode has an orifice, the tip of which is emitting edge. The meter (uglystich and the anode-cathode gap length (the magnitude of the voltage for which the true is calculated (5 hours and required by the diameter of the focal spot) is determined, since at high current densities the spot anode is intensively sprayed. For uniform; - 1 (the density holes of the anode hole are exposed in parallel. The source is pumped out: and otpaivatsya with the help :) usual shtagel located in the cathode holder (not shown). If high voltage is applied to the source at the edge of the hole, the intensity of the electric field 5 is amplified, There is a rise in microinhomogeneity of the surface and the formation of cathode plumes. The trajectories of the electrons undergo a great deal of transmission to the source, the formation of afok, and radiation under such a distribution of the floor is difficult. (Lt snya mechanism takes place and the HM duration is HM). more than the expansion time of the flame of the cathode torches to the outer spherical surface of the cathode and the intensity of the electrical voltage gkhi at the surface depending on the temperature and is cm / s. Thus, the first condition is met when the pulse duration is shorter than 30-50 nil, i.e. in the range in which most X-ray agents operate, they are sources with adult emitter. The second condition is provided by the spherical geometry and the no-thin outer surface of the cathode. The wear of the spike during the operation of a small mater of V7p-1 em is by the size of the interelectrode gap, while the diameter of the focal spot increases only slightly. Increasing the diameter of the hole in the cathode increases the length of its edge, thereby slowing the wear of the cathode. The proposed source design was tested on a pulse generator with a voltage of 100-300 kV, current in pulses up to 1.5 kL, pulse duration 20 ns. A comparison with a cylindrical cathode showed that there is a possibility to reduce the focus diameter by more than 2 times. The measurement of the current density distribution at the anode confirmed a sharp decrease in afocal. Increasing the life of the source is of great importance when operating pulsed x-ray machines under field conditions, since air entering the oil with which the device is filled occurs when the tube is replaced and leads to breakdown 51051616

power transformer and output resolution at a panoramic dv from the unit. Reduction of the dia- pereslation of the trunk pipes of a non-meter focal spot allows for tegae-tubes of the smallest diameter.

Claims (1)

A PULSED X-RAY SOURCE WITH A COLD CATHODE, containing a vacuum cylindrical body, at one end of which there is a flat cross-section anode, and at the other there is a coaxial insulating input with a cathode made in the form of a metal foil tube, which, in order to increase durability and attenuation of afocal radiation, the emitting end of the cathode is made in the form of a hemisphere with a hole bounded by a sharp edge, the axis of the hole coinciding with the axis of the source, and the plane of the hole parallel and the plane of the anode. <3 J