SU543308A1 - Selective gas-discharge radiation source - Google Patents

Description

The invention relates to gas-discharge light sources, in particular to pulsed gas-discharge lamps, intended for producing powerful multiple-flash light flashes in certain 5 areas of the electromagnetic radiation spectrum and used primarily for transmitting light signals in media with selective transmission of radiation, as well as for optical pumping active 10 media.

Selective gas-discharge radiation sources are known that contain a discharge flask, on the inner surface of which a film of metal with the required spectral characteristic is applied [1].

Selective gas-discharge hollow-cathode radiation sources are also known, in which the spectral lines of the lamp are determined by the cathode material or the material of the substance placed in the cathode cavity [2 and 3].

Closest to the proposed one is a spectral gas-discharge radiation source containing a discharge 25 flask with electrodes installed in the unit and a working substance with a linear emission spectrum [4].

However, in known radiation sources, the required vapor pressure of the metal is not maintained during their operation during 30 ', which reduces the reliability of the radiation source in operation.

The purpose of the invention is to increase the reliability of the source in operation.

For this, in the proposed radiation source, at least one of the electrodes is made with a through hole in which a dielectric tube is coaxially placed with an additional electrode installed along its axis, at the end of which a working substance is placed, and part of the dielectric tube above the working substance is made with a variable length inner diameter decreasing towards the discharge.

In FIG. 1 is a schematic structural diagram of the proposed radiation source; in FIG. 2 is a diagram of its inclusion.

The radiation source contains a discharge flask 1 and electrodes 2 and 3. In the electrode 3 there is a through hole in which the dielectric tube 4 is placed. Inside the tube 4 there is an additional electrode 5 with the working substance 6 at the end. 7-10 - places of sealing.

The segment of the dielectric tube 4, through which the working substance 6 enters the discharge gap, has an inner diameter that is variable in length and plays the role of a gas-dynamic nozzle.

Between the electrode 3 and the additional electrode 5 through the switch 11 is switched on drive 12 of electrical energy. The drive 13 of electrical energy is connected to the electrodes 2 and 3 through the switch 14.

When the switch 11 is activated, the electric energy of the storage device 12 is discharged between the electrode 3 and the additional electrode 5. In this case, a certain amount of the working substance 6 erodes and enters the discharge gap in the form of steam.

At the moment of the appearance of the working substance in the discharge gap, the switch 14 is activated and the electric energy of the storage device 13 is discharged in pairs of the working substance 6 between the electrodes 2 and 3, as a result of which the working substance is excited and emits light energy in its emission lines.

The proposed radiation source can work effectively if a metal from the I – IV groups of the periodic table is selected as a working substance, regardless of its melting and evaporation temperature, since the working substance is carried into the discharge gap due to its erosion in an electric discharge.

Claims (1)

Claim A selective gas-discharge radiation source containing a discharge flask 5 with electrodes installed in it and a working substance with a linear emission spectrum, characterized in that, in order to increase reliability in operation, at least one of the electrodes is made with a through hole in which it is coaxially placed a dielectric tube with an additional electrode installed along its axis, at the end of which a working substance is placed, and 15 part of the dielectric tube above the working substance is made with a variable length e inner diameter decreasing towards the discharge.