SU281683A1 - GAS DISCHARGE PIPE FOR ION OPTICAL QUANTUM GENERATOR OF CONTINUOUS ACTION - Google Patents

Description

The invention relates to the field of quantum electronics and can be used to create a gas ion optical quantum generators (CMOs) of continuous action.

Continuous ionic LCs are known, in which a metal partitioned capillary is used as the discharge channel. This design is a set of metal discs with axial holes within which the discharge burns. Metal discs are insulated from one another by a dielectric.

A disadvantage of the known ionic laser systems with a metal partitioned capillary is the sputtering of the anode parts of the disks under the action of ion bombardment. This limits the efficiency and power of the instrument. The disadvantages also include the use of a powerful thermal cathode, the current taken from which is equal to the discharge current in the capillary.

The purpose of the invention is to increase the erosion resistance of a capillary ion laser of continuous action, increasing its efficiency and power, as well as reducing the load on the cathode.

The goal is achieved due to the fact that the discharge capillary is made of a metal spiral placed in a vacuum-tight tube.

The coil is made of a material, such as tungsten, resistant to cathode sputtering and having a noticeable thermal emission at operating temperature. Because

the electrons emitted by the spiral will neutralize the volume charge of the ions at the walls of the capillary, this will lead to a decrease in the oadial and axial potential gradients, and, consequently, to a decrease in the velocity

spraying the capillary and increasing the service life, as well as increasing the efficiency and power of the device.

Using effective emitters, such as thoriated carbidized tungsten, as a coil material, the load on the cathode can be significantly reduced, since in the cathode part such coil itself will serve as an electron emitter. The invention is illustrated in the drawing.

The gas discharge tube for a continuous ionic laser consists of a cathode A discharge capillary 2 formed by a metal coil and an anode 3. To compress the discharge plasma and prevent burning

the discharge outside the helix uses the cathode cone 4 and the anode cone 5. The rings 6 serve to fix the helix to the tube axis and prevent the discharge from burning outside the helix. The helix can be electrically connected

special leads of the helix: cathode 7 and anode 8. For heat removal, a water cooling jacket 9 is used.

The operation of a gas ionic continuous laser with the proposed discharge tube design is similar to a laser with a sectioned capillary. Since the current passing through the coils of the spiral creates an axial magnetic field, the external solenoid used in the partitioned JAG is not needed in this case.

The proposed design of the discharge tube can be used to obtain generation on ionized metal vapors. To do this, it is necessary to position the sprayed metals at some distance from the hot spiral and screen them on the outside with heat shields.

Subject invention

A gas discharge tube for an ionic optical continuous quantum generator containing a cathode, an anode, a discharge capillary, a vacuum shell, characterized in that, in order to increase the erosion resistance of the capillary, increase the efficiency and power of the device, reduce the load on the cathode, This capillary is made of a metal spiral that is displaced into a vacuum shell.