SU1569585A1 - Method of producing hydrogen continuum - Google Patents

Abstract

The invention relates to the field of spectral instrumentation and can be used in the development of radiation sources for vacuum spectrum analyzers. The purpose of the invention is to simplify the implementation of the method. The essence of the invention is that one of the elements of a vacuum generator with an inductor located in a vacuum chamber is saturated with hydrogen; elements of the combined discharge design during high-frequency heating of a water-containing element. 1 il.

Description

The invention relates to the field of spectral instrumentation and can be used in the development of radiation sources for vacuum spectrum analyzers.

The purpose of the invention is to simplify the implementation of the method and increase the intensity of the continuum.

The drawing shows a diagram of a device for implementing a method for producing a continuum.

The device contains a vacuum Ka-Ieru 1 in which a vacuum discharger 2 is placed with a briquette electrode to initiate a vacuum breakdown and an inductor 3, made in the form of several turns of copper wire, which is connected through a bipolar vacuum connector to generator 5. A two-wire balanced feeder 6 connecting the matching device with the inductor is enclosed in a shield. The vacuum inlets of the feeder in the chamber are equipped with cooling water system 7. The vacuum discharge is equipped with 8..1 and 8.2 mechanisms for adjusting the electrodes. Flange. 9 serves to connect the camera to a vacuum spectral device, into which the light from the source passes through the slit 10 to the diffraction grating 11 and hits the film 12; for registration

Flanges 13 are used to connect to the vacuum pumping units.

The implementation of the method in the described device is carried out as follows.

One of the structural elements of a vacuum discharger is saturated with hydrogen, for example, a briquetted electrode, into which one can preliminarily introduce a substance with a good absorption capacity for hydrogen, such as palladium, titanium, etc., or hydrogenate an inductor made of ability to hydrogen. You can cover the inductor palladium or platinum niello. Borohydrides, such as KVN, can also be introduced into one of the discharge electrodes, when discharging in vacuum, this substance will release hydrogen, which feeds a continuum of sufficient intensity. A substance such as palladium absorbs hydrogen well and releases it when heated above several hundred degrees, so it can also be introduced into the high-frequency discharge zone by providing a special movable lead in the discharge chamber.

The hydrogenation of elements of the combined discharge can be produced by letting in a portion of hydrogen into the discharge chamber. Then, vacuum breakdown is initiated in the discharge of an auxiliary high-voltage spark and a high-frequency field is switched on. A stable high-frequency discharge arises, which functions both with and without a high-voltage spark, exciting a continuous spectrum of desorbed hydrogen molecules released from the elements of the combined discharge design during high-frequency heating of the hydrogen-containing element. The continuum radiation is associated with the transition from the upper stable electron state of the hydrogen molecules lS62S635g B to the lower unstable electronic state S62p63 2K.

The pressure in the discharge chamber is below 10 torr. The electrodes of the high voltage discharge are briquetted on the basis of coal powder, the inductor is a copper tube. The voltage of an auxiliary high-voltage spark is about 15 kV, the power consumed by the inductor is about 2 kW at a frequency of 27.12 MHz.

Claims (1)

Invention Formula The method of obtaining the hydrogen continuum, which consists in initiating an electric discharge in the discharge and registering a continuum, characterized in that, in order to simplify the implementation of the method and increase the intensity of the continuum, one of the elements of the vacuum discharge with an inductor is hydrogenated The discharge is excited by initiating a breakdown in the discharge with a high-voltage spark and applying a high-frequency voltage to the inductor.