SU414656A1 - - Google Patents

Description

The invention relates to the field of light sources emitting narrow spectral lines of various elements, and can be used in the design of atomic absorption spectrophotometers.

High-intensity two-discharge lamps are known, simultaneously emitting spectra of several chemical elements, containing an oxide cathode, an anode, and electrodes placed between them, made in the form of disks with central apertures. It is also known to perform one of the electrodes from an alloy of multi-electrode electrodes. However, such lamps cannot be used simultaneously to automatically take into account spectral noise. For these purposes it is necessary to use additional sources of radiation.

The aim of the invention is to create a spectral lamp combining the functions of a source of resonant lines and an additional source necessary to automatically take into account spectral noise. This is achieved by making another electrode from the element that defines the purpose of the lamp, placing between the specified anode electrodes and providing alternate glow discharge between the anode and the disk electrodes in the lamp's operating mode.

The invention is illustrated in the drawing, which schematically shows a spectral lamp.

The double discharge lamp contains an arc discharge cathode 1 (oxide cathode), a glow discharge anode 2, with a disk with a central hole 3 made of an alloy of multiline elements, such as tungsten, rhenium, molybdenum, vanadium, zirconium, hafnium, titanium, tantalum and niobium, and another disk with a central hole 4 is made of an element that defines the purpose of a la.mpa, for example. media, and is located between the anode of glowing discharge 2 and the anode of arc discharge 5.

The voltage required to create a glowing discharge to the disk by the disk cathodes and the anode of the glowing discharge placed between them is supplied from a transformer,

secondary winding which is made with a midpoint. Such an inclusion provides alternate glow discharge between the above-mentioned disk electrodes and the anode with an interval equal to the half-period of the supply voltage. In order to create conditions that allow the equation of light fluxes from disk electrodes, the voltage is applied to them through variable resistors. Disk electrode made

from the multi-element alloy, provides a multi-lined spectrum of radiation whose lines are located in close proximity to or coincide with the resonant lines of the analyzed elements used in atomic absorption, for example, the lines of copper, silver, gold, potassium, sodium, manganese and others. The sequential recording of the resonant line of the element being analyzed and the adjacent line of the alloy of multiline elements used to account for non-selective interference emitted by the monochromator is carried out as in the known atomic absorption spectrophotometers made with automatic spectral interference.

Subject invention

A spectral lamp containing an oxide cathode, an anode, and disk electrodes placed between them with central apertures, one of which is made of an alloy of multilinear elements, is different in that, in order to provide automatic accounting for selective selective interference, the other disk electrode is made of the element defining the purpose of the lamp and an anode of a glow discharge is placed between the disk electrodes, and in the lamp operating mode an alternate glow discharge is provided between the disk electrodes and the anode leyuschego discharge.

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