RU126447U1 - HIGH POWER ELECTROMAGNETIC RADIATOR - Google Patents

Abstract

A high power electromagnetic radiator comprising a glass tube with a vacuum inside, consisting of a rectilinear and zigzag sections, in which an ion source of electrons, accelerating tubular electrodes, anode is located, the anode being located at the end of the zigzag section, which is equipped with a spherical lead reflector with an internal mirror surface, the high-frequency generator is connected to accelerating tubular electrodes, characterized in that the emitter is equipped with an electromagnet with a winding, between the poles of an electromagnet located zigzag portion of the vacuum pipe and the winding is connected to a high frequency generator.

Description

The utility model relates to the field of weapons and can be used to completely and quickly destroy a target of any size, consisting of any matter absorbing radiation at any distance in the line of sight.

A device is known for influencing material objects with electromagnetic radiation, comprising a high-frequency generator, a vacuum glass tube with a zigzag section, inside which an ion source of electrons, accelerating tubular electrodes and an anode located at the end of the zigzag section, which is equipped with a spherical lead reflector with an internal mirror surface (patent for the invention of the Russian Federation No. 2409798).

The known device is the closest to this utility model. The disadvantage of this device is the lack of a reliable energy device for turning charged particles in a zigzag section of a vacuum cut.

The technical result of the utility model is the complete destruction of atoms of any matter that absorbs radiation of matter into elementary particles under the action of powerful electromagnetic radiation in the frequency range from 10 ¹⁵ Hz to 3 * 10 ¹⁶ Hz and higher with a high photon intensity of more than 100 MeV.

The specified technical result is achieved in that the high-power electromagnetic radiator comprises a glass tube with a vacuum inside 1, consisting of a rectilinear and zigzag sections, in which an ion source of electrons 2, accelerating tubular electrodes 3, 4 of anode 5 are located, and the anode is located at the end of the zigzag section , which is equipped with a spherical lead reflector with an internal mirror surface 8, the high-frequency generator 9 is connected to accelerating tubular electrodes 3, 4, according to the field model, the emitter is equipped with an electromagnet 6 with a winding 7, and between the poles of the electromagnet there is a zigzag section of the vacuum pipe, the winding 7 is connected to a high-frequency generator 9, the ion source of electrons 2 emits free electrons, accelerating the tubular electrodes 3, 4 and the anode 5 accelerate them, the electromagnet 6 deflects the trajectory of the charged particles in a zigzag section, and a spherical lead reflector with an internal mirror surface 8 focuses and reflects electromagnetic microwave pulses in a hundred drop the target.

The technical result of the invention is the production of powerful electromagnetic radiation in the frequency range from 10 ¹⁵ Hz to 3 * 10 ¹⁶ Hz and higher with a high photon intensity of more than 100 MeV.

Figure 1 presents a structural diagram of an electromagnetic emitter of high power.

Figure 2 presents the equivalent circuit of a high power electromagnetic radiator.

The high-power electromagnetic emitter contains a glass tube with a vacuum inside 1 (Fig. 1), consisting of a rectilinear and zigzag sections, in which an ion source of electrons 2, accelerating tubular electrodes 3, 4, anode 5 are located, the anode being located at the end of the zigzag section, which is equipped with a spherical lead reflector with an internal mirror surface 8, a high-frequency generator 9 is connected to accelerating tubular electrodes 3, 4, an electromagnet 6 with a winding 7, and between the poles of the electromagnet the thread is a zigzag section of the vacuum pipe, the winding 7 is connected to a high frequency generator 9.

High-power electromagnetic radiator operates as follows.

The ion source of electrons 2, using the gas ionization process, splits atoms into nuclei and free electrons, which fall into tube 1 and form an electron cloud. The accelerating tubular electrodes 3, 4 are alternately supplied with pulses of opposite signs from the high-frequency generator 9. With this, the electron cloud is accelerated. The process is as follows. A positive impulse is applied to the electrode and it attracts the electron cloud, then a negative impulse is applied to the same electrode and it repels the cloud to the next electrode, where a similar process takes place. A high positive potential is applied to the anode 5, which enhances the acceleration process in the zigzag section of the pipe 1. An alternating voltage is applied to the winding 7 of the electromagnet 6 from the high-frequency generator 9. The resulting high-frequency alternating magnetic field deflects the accelerated moving electron cloud, first in one direction, then in the other along a zigzag section of the pipe. An accelerated electron cloud, flying along a zigzag section creates a powerful electromagnetic pulse of ultrahigh frequency around the latter, which is focused and reflected by a spherical lead reflector with an internal mirror surface 8 towards the target.

As a result, this impulse, interacting with the atoms of the target’s matter, completely destroys them into elementary particles. The result of this is a change in the structure of the matter of the target, which leads to its destruction and destruction of the latter.

The equivalent circuit shown in FIG. 2 explains the principle of operation of a high power electromagnetic radiator using a simple electric circuit as an example, containing a power source 10, an ultra high frequency generator 11, an inductive component 12, an active component 13, a capacitive component 14 of the resistance of the circuit of the conductor-emitter 15, and a spherical reflector 16, a power source 10 feeds an ultrahigh frequency generator 11, which generates an emf above a high frequency and closes on a circuit consisting of an inductive component 12, act The integral component 13, the capacitive component 14, and the conductor-emitter 15 connected in series creates an alternating current in excess of high frequency in it. A conductor emitter 15 is highlighted in this circuit, through which a super-high frequency current flows, as a result of which an ultra-high frequency electromagnetic field is formed around it, reflected by a spherical reflector 16. As can be seen from the comparison, the zigzag section of the pipe 1 is an analog of the conductor-emitter 15.

Claims (1)

A high power electromagnetic radiator comprising a glass tube with a vacuum inside, consisting of a rectilinear and zigzag sections, in which there is an ion source of electrons that accelerate the tubular electrodes, an anode, and the anode is located at the end of the zigzag section, which is equipped with a spherical lead reflector with an internal mirror surface, the high-frequency generator is connected to accelerating tubular electrodes, characterized in that the emitter is equipped with an electromagnet with a winding, between the poles of an electromagnet located zigzag portion of the vacuum pipe and the winding is connected to a high frequency generator.

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