RU38427U1 - ELECTROMAGNETIC RADIATION GENERATOR WITH CONTROLLABLE FREQUENCY OF STIMULATED RADIATION - Google Patents

Description

FIELD OF THE INVENTION The device is related to the field of electricity and, in particular, to gas-discharge devices. Allows you to use © to create power lines without prВВВ00v over long distances, and the generation of radiation in the 0 optical range for creation I have power lines in the atm®phere and in K9smfs, and in the acoustic dianazene under the news. Known gas-discharge lasers / 1 / where a smoldering gas discharge excited by a current or high-frequency currents creates conditions for an inversion of laser level populations. High radiation coherence can be achieved only by using additional measures to select vibration types. An increase in radiation power is limited by structural and technological the possibilities of manufacturing high-current gas-discharge tubes of increased thermal resistance, and the cathode and anode are outside the discharge capillary . To reduce the heat load, the discharge capillary is placed in an external longitudinal magnetic field, which concentrates the discharge of the cell. MKI N 01 4/00 Avtvr Titov A.A.

This is based on the effect of forced photo-emission of the excited atom in the atom, where the atom in the “CHOBRee family” does not pass directly, but with a two-stage path through the middle of the distance. The ert design is determined by the presence of sapphire quaets with clad gas (lithium vapor) with heating of de 750 ° C, two optical fibers and two non-transparent herkals. through fe nevertheless a more complete network, which is a two-branch generation,

The disadvantages of the Internet: -clink the kenstructshn n low efficiency of the device;

- the presence as a more active medium of a pair of lithium, while maintaining the temperature of the heater.

The Neutral type of generator of electromagnet emission of radiation is known / 3 /. The basis of such generators is made up of a magnetic left ray, which is obscured by the last (fairies) plasmas and placed in a quasi-optical resonance (i.e., the linear dimensions of the ketereg are much higher than the last radiation plasma). serves as a nonlinear element, keter in the process of energy storage suppresses the excitation of plasma oscillations. Energy can accumulate due to injection of fast electrons into the magnetic trap, or due to the high-frequency and cyclotron th heating plazmy.Blagodarya Availability resonator radiation quickly builds up in its volume, which leads to a sharp lowering of the threshold of excitation of electromagnetic waves and the explosive nature of the instability. Thus, a significant part of the energy of the electrons goes into electromagnetism of radiation.

The disadvantages are internally attributed to: - cumbersome kenstruction of magnetic loeuoca and means for injecting fast electrons into a magnet of a lvunka - requires the use of an organ-organic compound solution as an active medium, which must maintain a high excitation threshold in the system.

It is known that it is possible to obtain directional superradiance / 4 /. If a population is inverted between any two atomic energy levels in a gas, then spontaneous emission will be coherently amplified by the stimulated emission mechanism. The gain at a certain frequency is percennal to the number of atoms having an appropriate velocity and which are due to the Doppler effect in resonance with this frequency. The gain is maximum for non-stationary atoms and quickly decreases with increasing their velocity. For small initial inversions acceleration leads to the appearance of super-radiation of multiple and coherently amplified spontaneous emission with a much narrower spectral line than the line of ordinary spontaneous emission. Since the maximum and the Maxwell limit are isotropic, the spontaneous emission gain is isotropic, and ®, from tropn0 and spherical radiation. However, as shown by experts from the Massachusetts Institute of Technology (USA), one can make directional superradiance by artificially inducing anisotropy of the gain by compensating for the Doppler effect for a group of atoms moving in the same direction, and vice versa strengthening the Lapler effect for a group of atoms with opposite directions of velocity. This is achieved by shifting one of the atomic levels involved in superradiance just so that the change in the frequency of the atomic transition (for a stationary atom) was equal to The opposite sign is the Depler change in the frequency of the light wave emitted by this atom. Such a shift can be obtained due to the radiation interaction of atoms with a strong monochromatic wave, which gives rise to fast induced transitions between one of the two working levels and a non-net third. The magnitude and sign of the radiation shift are determined by the frequency and amplitude of this shift . It is known that to control the movement of charged particles of IVN9B in a gas, winners are known both with non-independent and with an independent arc or glow discharge in devices for straightening TVK / 5 /. In order to eliminate the deficiencies defined in the presented analogues and also to ensure high efficiency for converting electrical energy to electromagnetic radiation, achieved in gas-discharge lasers with the ability to re-tune the radiation frequency, Ufa has been achieved in a generator in a two-photon laser, and emit superradiance at tunable frequencies n0 Spoofbu compensation of the Depler effect; with the possibility of energy storage, as was achieved in the generator using a magnetic trap; removing the stringent requirements for the active medium with this; moreover, to emit electromagnetic radiation both in the optical fiber and in the high-frequency acoustic range; with the possibility of converting the incoming radiation from external sources of radiation in the same ranges into electric current according to the compensation method for the Doppler effect taking into account the scattering processes of the SBS, while increasing the energy conversion efficiency to 98-99d, as was achieved on ignitrons, and this is proposed. An electromagnetic radiation generator with tunable frequency, stimulated emission frequency, to a method of compensating for the Doppler effect taking into account the SBS scattering processes in the optical radiation range including an cathode, anode and arresters, characterized in that it is mounted inside a gas-discharge chamber of cylindrical shape in a volume of a gas medium that is more suitable for stimulated scattering Mandelytammma-Brillouin (SBS), on the @ si camera the control electrode is the anode, and at the ends of the gas-discharge chamber are mounted their own. s (Mi JV V 0

concave surfaces directed towards the center of the chamber are reflective plates, on the area of which: from one end side of the gas discharge chamber 1 to the center of the reflective plate there is a hole for the radiation to exit from the chamber, and a ceramic tube is mounted in this hole, a thermo-spiral is wound on the extruding part of the inside of the chamber outside the tube the cathode connected to the power source through the control device has a current of © m filament, and on the protruding part outside the chamber, a ceramic tube is inserted into the nozzle for installing the diaphragm ring rings and lenses; and on the other end side of the gas-discharge chamber, a structure with arresters is mounted on the concave surface of the beam-reflecting plate, and a control electrode-anode, which is connected to a device providing a pulsating mode of negative voltage on the anode in a predetermined time mode, and in the receiving device mode, the second PF electrode will be connected to the anode by a reflective plate with a thermo-helix

A.2 Generator of electromagnetic radiation with a tunable frequency of radiation in the high-frequency Phgv acoustic mode in the radiation range n © pL, characterized in that the hole for the output of the radiation and the gas-discharge chamber, which is more mineralized by the ceramic, will be on the reflecting canopy with a structure and dischargers, and on the protruding part inside the chamber Ceramic pipe Eberudev and% with ancillary electrode-connected With an unattended secure variable sign of the alarm in the future time mode; and with another shredded gaseous discharge, the kamerms are framed by an ovely convex part towards the center of the chamber, the beam is reflective and transparent, and on the area of the keteres in its central part of the hedgehogs, the termed-irrelevant catched is wound, and in the case of less acoustically preberazevinin electrically.

Declared devices® as a generator of electromagnetic radiation with a tunable part of stimulusrevrenne® radiation according to the method of compensating for the Doppler effect and forced scattering of Mandelytamma Briluen performed as a generator in optical or in high-frequency acoustic diaiazene and even operating in the reception mode with the conversion of the energy transmitted through the beam into electric current corresponds the criteria of the invention is novelty.

POPs / SPZ 4. Re-Fig. Summary of the application Example. The alleged invention is illustrated by the drawing, see. 1 and FIG. 2. FIG. 1 shows a schematic diagram of a generator of an electromagnetic radiation generator with a tunable frequency of stimulated radiation performed as an oscillator in the optical radiation range. FIG. A schematic diagram of an electromagnetic radiation generator in the form of a generator in the high-frequency acoustic radiation range is presented. The gas-discharge chamber can be implemented as an indistinguishable structure or with replaceable beam-reflecting plates. Further on, we will consider an exploded version. Case-1 of the gas-discharge chamber is made of a cylindrical shape, at the ends of which there is an internal screw thread (thread), into which a 2.4-ray reflecting plate is screwed, which are secured with locknuts-3. Housing-1 and locknuts-3 are made of glass or ceramic. Beam-reflecting plates-2,4 are made of metal of a spherical-convex lance with mirror spraying (p heat reflector) incipit. On the plane of the reflecting plate-2 inside the gas-discharge chamber), the structure of the discharge-5 with dischargers-6 is mounted over its entire area, the discharge streamers should be parallel to the plane of the reflecting plate-2 and directed from the axis of the plate to its periphery The structure of the arresters-5 can be represented as a ring Tires-7 on which along the entire length needle-shaped protrusions are welded along the length of the fault, and in the aggregate of two tires with protrusions one against the other, when high-voltage energy is supplied to the Tires-7, breakdown (spark) occurs. They are located across the entire plane of the beam-reflecting plate. The bus-7 high-voltage busbars themselves are connected to their power supply-8 (horizontal type in television circuits, like a horizontal transformer) transmitting high-voltage voltage to the buses with rectangular pulses, and the connection is 1- 7 with dips is determined through glass tubes, as shown in the PN Lebedev spark generator, the bundled tubes and the busbar interface are not shown in the drawings. Due to the input of energy by rectangular pulses, The radiation chromaticity is emphasized. In the center on the axis, the beam-reflecting plate-2 has 9p-9 through which a wire ending in the control electrode @ d "m-10 (anode) passes, a round plate with the diameter of the output opening, the keter is connected to a device providing a pulsating mode of negative potential , tension /. In construction, it can be represented by a mechanical interrupter installed in the circuit E1ECTROD ZEM7Sh, and as a chopper, a disk with a contact rotating with an electric motor. Given the possibility of maintaining a generator in the transport. 5. By means of: an airplane, a steamboat, a submarine, in a spacecraft or on the moon, it is possible to apply a circuit using a single-period rectification of an alternating current connected to a circuit using a gas cartridge with a surge filter and a quenching filter that extinguishes a positive voltage. A ceramic tube-12 is rigidly mounted in the central part of the beam-reflecting plate coaxially with the body-1 of the gas-discharge chamber into the hole for the output of stimulated radiation, a thermal coil-TK (control cathode) connected to the source is wound and fixed to the protruding part inside the body -I supply "14 represented by the transformer glow and through the regulating devicev-15 (rheostat) or by adjusting the voltage supplied to the glow transformer. The requirements for the cathode and the power source are the same as in ha otronah: tungsten spiral, low voltage and high tok.S lucheotra zhayuschey back side plate 4 has truoka ceramic nozzle, for installation ka for diaphragm rings with an outer diameter corresponding to a diameter of the nozzle bore diameter and the inner diameter varies i.e. several k®lets options are included. The diaphragmed kelTsO-2C is made of metal. Install lenses for focusing radiation in order to use the generator for welding, the reflective plate-4 should have a contact on the outside (welded plate), put on the ketor plug ( not shown) for connecting to a consumer’s network paired with a control electrode-U when the generator is in the mode of converting laser radiation into electric current. / Fig. I / The reflecting ilastine 16 has already been made flax metal and convexly slightly turning the center of the CAMERA, through the heaters 9 mentoring with the chambers the thermal spiral 1E (control cathode). The beam-reflecting plastic plate 17 of the 17th structure of the discharge-3 circuit has a ceramic wire in the cassette and is connected to a wire in the circuit - HB Kelikewei / 9Irma (aned) Ketery is connected to the airwave of the HWheel-healing alternating sign of the potential on elec, Device 19, the unmarking alternating sign of the voltage potential on the electric 1b is represented by a rectifier circuit with the use of Tiratroon, Ketors @ using alternating current circuits with a frequency of 10 kHz. By changing the frequency of the power supply vr--. voltage, the light-branch and the time of the operation of the electrowind-U and 18 and the corresponding sweeping of the displacements of atvm @ v, which leads to the formation of space charges in the gas (ion charges), and the controlling electrbd-Yu and 18, however, only the charge potential, and the circuit to close

On the use of gas electron tubes you can close the circuit on them. Other variations are possible, given the rapid growth in the development of electrical engineering at present with replacement lamps, which will reduce the size of the control system of the electromagnetic radiation generator with a tunable frequency of stimulated radiation. / Fig. 2/

JPa6oTa of a generator of electromagnetic radiation with a tunable frequency cf; a shuffled radiation in the optical radiation range is sintered as follows.

The structure of a discharger 1–5 and the energy of monochromatic microwave radiation in a centimeter or in a millimeter in the range of © t dischargers-6 are reflected into the volume of the active gaseous medium occupied by the case-1 of the gas-discharge chamber and is absorbed by gas atoms Due to the curvature of the area of the ray-reflecting plate-2 and the non-uniform focus of sparking from the spark gap, the condition is that the spark gap does not cover the area of the reflecting plate-2) the radiation from the intrinsic frontal front and in the active medium ©, a complex system of micrescible beams of light intensity / 6 / non-self-emitting dark glow discharge is formed. The thermo-spiral-13-control cathode is activated, providing heating of the active gas medium and electron emission, which also are reflected from the beam-reflecting plate-4 and sent to the active gas medium, intensifying the fluctuation processes and leading to the formation of ion-sound vibrations / U /, ket®s in the low-temperature plasma of the active gas © in the © medium determine highly acoustic acoustic vibrations. Considering that the electrons in the gas have a significantly larger mean free path and less inertia than the yen, they receive an additional impulse due to thermal radiation and rush to the center of the gas discharge chamber and get into the zones with the smallest spatial inhomogeneity during interference and these motion of electrons is carried out by круг circular paths in these zones, determining the growth of microscopic clots and the formation of non-independent glow discharge / 8 /. When braking In this case, the electron transfers energy to the electromagnetic field (cyclotron resonance) and, due to electrostriction processes taking into account (SBS), increases the amplitude of high-frequency acoustic vibrations, and due to acoustic vibrations, clumps are ordered in the volume of the active gas @ medium in the plane of the ferrimagnetic state, which is determined by the valve mode, which is determined by the properties of the Brillouin mirror / b /. The surface configuration of the beam-reflecting plate-2 determines the Fresnel surface, and the spacing When the manufacturing process does not comply with the accuracy of the surface itself, these phases are compensated by ion-sound vibrations in the active gas medium under the condition that the monochromatic radiation is retained as the wavefront recovery at (SBS), and the amplitude growth conditions

vrCj / CJL i 7

Because of small vibrations, it determines the ordering of the processes of the interference pattern on the Bragg diffraction / 9 / as an acousto-optic modulator and is defined by bright luminous striations in the active gas medium / 8 / at high gas pressures. Thus, the presence of structure B of the spiral 1.1 spiral 13 removes the stringent requirements for the active medium-gas medium and stringent requirements for the design of surfaces of the reflecting plate-2. Without taking into account the operation of the control electrode-10, all processes with a gas-discharge chamber filled with gas at ordinary At nospheric pressure, the formation of a new plasma is determined, as determined in a generator with a magnetic trap, determining the conditions for the formation of non-self-sustaining glow discharges in the bulk space of the active gas medium, and the volume of the glow discharge is consistent with the superfine frequency radiation from 6-k arresters, determining the exit to the first pump level transferring the active gas medium from the primary to the intermediate (virtual) pump level. Positive ions during gas ionization compensate for the negative volume charge near the cat ode (thermal spiral-13), as a result of which the electron emission increases slightly, determining the increase in the number of negative ions, determining the increase in the number of negative ions, which due to thermal radiation from the beam-reflecting plate-4 are displaced to the center of the chamber-1 (housing-1) with an additional pulse get to due to acoustic vibrations, and the displacement and concentration of the negative negative space charge on the axis determines the metastability conditions of the intermediate level of pumping, which maintains a high excitation threshold in the active medium e defining a discharge chamber as a quasi-optical resonator / 3 /. It is known from plasma physics that flying free electrons near a negatively charged ion leads to a decrease in temperature in local areas of the plasma, increasing the thermal conductivity of the plasma. When the control electrode-10 is switched on in the pulsating mode, the negative voltage potential lasts until it is turned on was in the volume of negatively charged ions, due to the charge repulsion of negative ions and the condition of attraction of positive ions in the presence of acoustic fields, leads to a displacement of ion charges in the volume of the active gas medium in a degenerate state, increasing the displacement of positive ionic charges to the cathode and pinching them to the axis. Negative ions, on the contrary, repel from electrode-10, and the displacement and compression of positive ions to the control cathode (thermal spiral-13) increases the number negative ions (violation of plasma neutrality). The process of buildup of space charges in half-cycles during operation of control device II and under conditions of maintaining neutrality in the plasma, taking into account the acoustic field and It forms an independent discharge with a streamer in the form of a spiral current coil relative to the axis of the core (Li .nyca-I in front of the regulating electrode-IC and thermal coil-13 in the volume of the active gas medium. When the voltage on the electrode-10 is zero, the independent discharge streamer expands and the current direction in the streamer, it is directed in one direction, and when a negative voltage appears on electrode-13, the self-discharge streamer is compressed and the current flows in it in the opposite direction. charges and currents in the self-discharge streamer depends on; the half-cycle time and voltage at the electrode-Yu of the specified devices®m-11, which provides a pulsating negative potential mode, When the voltage at the electrode-1C is turned off, the rate of restoration of equilibrium in the plasma. into the dynamics of the displacement of atoms in the volume of the active gaseous medium.The formation of an independent discharge with a streamer in the form of a spiral determines the axis of the gas discharge chamber and the laser is excited by an explosive amplitude instability Incidentally, mode selection due to an increase in acoustic peaks (increase in the amplitude of prewaves) is determined by Bragg diffraction as the condition for interference of diaphragmed waves, which allows me to combine the function of the detector and the spatial time of the optical waveguide, and due to scattering (BPM) according to the placement of 2.4-ray reflecting plates with coiled splashes towards the center of the chamber -determining the anisotropy of radiation emitters; microwave, heat-polar and acoustic fields, automatically influence non-bodies on phase, HB and polarization modulation, which is determined on September 9 with the formation of a luminous light streamer of an independent discharge, and the shift is determined due to the radiation of the interaction of atoms with a strong mnochromatic field, determining directionally super-radiation. one inter-trip virtual 0 1 1 ® | p even even in the process & radiation which is impossible to receive in a two-ton laser / 2 / and in a laser with a magnetic trap / 3 / and there is no need to use a computer as defined / /, defining with the formation of an independent discharge defining a discharge chamber as a resonator system with lasing kvaziavtokoletatelnoy.

The operation of an electromagnetic radiation generator with a tunable frequency of stimulated radiation for receiving radiation and converting radiation into an electric current is also determined taking into account the formation of an independent discharge independent by the condition that the current arising from it is determined by electron capture during ionization of the active gas medium and during the destruction of glow discharges in local volumes along the spiral path in the volume of the cold (background) plasma, and when the electron flow in the streamer moves against the radiation of the SZCh it ame (Q (it slows down and the electrons give their energy to microwave radiation, but in motion ... ..: the electrons in the stimulator in the opposite direction, on the contrary, acquire the microwave radiation energy. Moreover, an independent discharge occurs and the shift of one of the atomic levels involved in superradiance is determined as times, so that the change in the frequency of the atomic transition (for a stationary atom) equals the ebb sign of the Doppler change in the frequency of the light wave emitted by this atom By tuning the electromagnetic radiation generator with tunable with the frequency of stimulated radiation to the first pump level and determining the formation of an active gas medium in the volume with the formation of strei; -1er self-discharge determining the formation of a spiral coil with © the generator is mounted on the generator of an external radiation source, t © beam from an external source entering through a ceramic tube-12 3 chamber-1 volume simultaneously carry out additional ionization replenishing the current in the self-discharge streamer and affect both the phase and polarization modulation of limit the increase in the number of turns of self-sustaining discharge, i.e. This coil is stretched like a spring. By regulating the control electrode-НС with the glow current of the thermal spiral-13, the generator operating mode is brought to the frequency of the received radiation, while the current in the self-discharge increases, which leads to drift of charged ions positive to the reflecting plate-4, and negative ions along the axis of the casing-1 to the electrode-10, in this case it is impossible to allow the self-sustained discharge to touch the electrode 10 or the thermal helix 3 or the reflective plate-4. The compensation and amplification of the Doppler effect is determined by increasing by bias currents, similar to the process of changing the phase of the grid voltage, as STO is determined on the thyrotron, which can accordingly be regulated by the flows of positive ions from the outside of the self-sustained discharge spiral and negative ions inside the self-sustained discharge spiral as the movement of atoms in different directions, i.e. determines the ability: 4 4 the ability to regulate both voltage and current, which are in resonance with the matching processes taking into account the consumer connected to the beam-reflecting plate-4 and to the electrode-1C. Considering that a laser beam passing through large distances in space and interacting with the space environment acquires additional perturbations in the form of additional transverse modes, which, when entering the gas discharge chamber through a ceramic tube-12 in which diaphragmed rings-20 are installed, the inner diameter is determined by the range condition reception, conditions and contents of the medium in which the beam passes) and depending on the conditions, one ring is put in the nozzle that satisfies these conditions and 1 set there should be a set of these diaphragmed rings that determine the diffraction of the incoming and outgoing NS of the gas discharge chamber of radiation and, when they interact, determine the transverse ce (3tc3i; 4

lecture mod, i.e. restrict the arrival of all modes except the highlighted one.

The operation of the electromagnetic radiation generator with a tunable frequency of stimulated radiation in the high-frequency range of acoustic radiation / Fig. 2 /, D9 of the first pump level, the operation of the generator is identical to the processes of the electromagnetic radiation generator with a tunable frequency in the optical radiation range due to a slight difference due to the fact that the surface is reflective plate-1b with its convex side is directed to the center of the chamber of the body (1), determining the inhomogeneous front in the temperature field, which when the wavefront is reversed and Mandelstamm-Brillouin (SCL) stimulates scattering, the light on it compensates for these distortions of the wavefront up to the conditions of obtaining the acoustic front in the strictly perpendicular position of its plane to the axis of the casing 1 of the gas-discharge chamber. Turning on the control electrode-18 (E conditions of the intermediate (virtual) state of the active gaseous medium, i.e., the formation of a cold (background) plasma under the influence of control device-19, which sets the negative potential in the half-cycle on the electrode voltages, and then positive, which in turn determines the buildup of volumetric ionic charges and the formation of a self-sustained discharge, which are interacting with acoustic longitudinal vibrations (obtained as a result of magnetoelectric friction due to the formation of a glow discharge (the formation of microstructures of light clots — a glow discharge of an active gas src) during light scattering and temperature fluctuations) determines the modulation of ion-sound vibrations / 1C / the frequency of this modulation is determined by the long column plasma inside the streamer in the form of a self-discharging spiral and the speed of ion (sound (for a hydrogen plasma, the measured frequency is 10 Hz. Considering that in the design of the generator in the active medium both the modulation frequency and the direction of the electrons in the self-discharge streamer are controlled by the em-19 device in the form of a spiral, the electron current flow in the streamer by electrically not producing microwave radiation 0t of the structure of the discharge -quat-5 and the reflecting plate 17 terminates them and the electron energy is transmitted to the sound wave, and when it is directed along the microwave electric field, it absorbs the microwave radiation energy, determining the increase in the amplitude of the high-frequency oscillations. The processes of the conversion of the received high-frequency acoustic vibrations are similar to the processes of reception of the optical vibrations since at the heart of the process is the same independent discharge. List of references/

I.G.L. Kiselev Quantum Elvtrenics Instruments M. Vysmaya Shkola. 1980 2. 1 i / P (47.JU I4I7I-I73 (USA) Z. The New Type of Generation of Electromagnetic Radiation 1ETP, 1961, vol. 80 vol. 6 s .2198-2209

4. Compensation for the Deiler effect and directed superradiation P uSlcaC /,.5 D980. V 5, No. l5 p. I242-I245 (

(USA |

5.V.S.Popov, s.A., Nikolaev General electrical equipment with electronic electronics M.Energy 1972

b.Yu.N. Denisyuk T @ lografiya-what do we know about her today journal. Nature I98I No. 8

7, Ya.B. Zel'dovich, I.D., Nvvikov Relativistic Physics M, Nauka 19b7g chapter 19 Development of disturbances in a hot model p.531-533 8. Discovery No. 260 of July 22, 1982, the phenomenon of ionization turbulence of low-temperature plasma

9.G.L. Kiselev Quantum Electronics Devices Section Acousto-optic Modulators p. 149.

Yu.M.D. Gabovich Interaction of a plasma on a living metal Nature 1984, I2

I.A.R.Serdvkev Pyotr Nikolaevich Lebedev M.Nauka 1978 p. 294.

iCC3lC3Qc / 4

Author A.A. Titov

Claims (2)

1. An electromagnetic radiation generator with a tunable frequency of stimulated radiation according to the method of compensating for the Doppler effect and scattering processes (SBS) in the optical radiation range, including a cathode, anode and arresters, characterized in that inside the gas discharge chamber in the volume of active gas medium capable of stimulated scattering Mandelstamm-Brillouin (SBS) is mounted on the axis of the gas discharge chamber, the control electrode-anode, and at the ends of the gas discharge chamber is mounted with its concave surfaces to the center of the gas there are beam-reflecting plates in the discharge chamber, and in one of the end sides of the gas-discharge chamber in the center of the beam-reflecting plate there is a hole for stimulated radiation to exit from the gas-discharge chamber, and a ceramic tube is rigidly mounted in this hole, on which the thermal spiral control is wound on the protruding part of the chamber from the outside of the tube the cathode, and the thermal coil itself is connected to the power source through a regulating device by a glow current, and on the protruding part from the gas discharge chamber, ceramic the tube has a nozzle for installing diaphragm rings, and a structure with arresters is mounted on the inner surface of the beam-reflecting plate on the other end side of the gas-discharge plate, and a control electrode-anode, which is connected to the device, is removed outside the structure with spark-gaps in the central part of this beam-reflecting plate providing a pulsating mode of negative voltage at the anode, and in the mode of receiving radiation, the beam reflecting plate near the cathode from the outside has contact for connection to the consumer, since this reflective plate is the second electrode with respect to the control anode when converting the energy of optical radiation into electric current. 2. The electromagnetic radiation generator with a tunable frequency of stimulated radiation according to claim 1, characterized in that the hole equipped with a ceramic tube is on the beam plate with a structure with arresters, and on the protruding part inside the gas-discharge ceramic tube at the end there is a rigidly fixed control electrode - an annular anode connected to the device and providing an alternating sign of the voltage potential at the anode, and on the other end side of the gas discharge chamber with its convex surface inside the chamber, and on its surface inside the chamber in the central part, through the insulators, a thermal helix-control cathode is fixed.