SU444270A1 - Spectral discharge of the lamp - Google Patents

Description

one

The invention relates to a spectral gas discharge lamp, such as a deuterium lamp, and can be used in spectral research instruments, which include such lamps.

It is known that in spectrophotometry gas discharge hydrogen or deuterium lamps serve as sources of continuous radiation in the far and near ultraviolet regions, and thermal emitters (incandescent lamps, ribbon lamps) in the visible and near infrared regions.

The disadvantage of using these sources is the need to change them when moving from ultraviolet to visible spectral regions. This is particularly difficult to implement in vacuum monochromators, which have a working range from 50 to 700 nm and with which the hydrogen lamp must be vacuum-tightly connected to the instrument body.

The purpose of the invention is to expand the spectral range of the lamp measurement from the far ultraviolet part of the spectrum to the infrared part.

For this, its anode is made of a refractory metal with a small cross section, which makes it possible to heat it up with a discharge current to a high temperature. At the same time, in order to increase the radiation of the lamp in the infrared and visible parts of the spectrum, its anode is made in the form of a ribbon of refractory metal, such as tungsten, and is connected to the power supply circuit to further heat it up.

current.

FIG. 1 and 2 shows the proposed lamp.

The spectral gas discharge lamp contains an anode 1, a cathode 2, a discharge channel 3, and a flask 4.

The anode performs the function of a thermal radiator; therefore, it is made of tungsten foil with a thickness of 30-50 microns. The width of the foil is determined by the power

arc discharge When the density of the discharge current at the anode is 25 A / cm, the latter is heated to a temperature of about 2000 ° K. In this case, the solid radiation extends from the shortwave to the longwave transmission limits of the lamp window. Moreover, in the visible and near-infrared regions, a continuous hydrogen spectrum is superimposed on continuous radiation from a hot anode. When using filament current to heat up

Anode discharge can be turned off. Such consistent operation in the discharge mode and in the thermal emitter mode provides in the radiation of the lamp a continuum of both E near ultraviolet and visible

and in the infrared region of the spectrum.

The use of the proposed lamp will simplify the design of the illuminators of spectral instruments, facilitate their operation and speed up measurements made in a wide spectral range.

Subject invention

Claims (2)

1. A spectral gas discharge lamp, such as a deuterium lamp, containing an anode mounted on a single axis with a gas discharge gap, a cathode and a shielding cylinder, characterized in that, in order to expand the spectral range of the lamp from the far ultraviolet part of the spectrum to the infrared part, The anode is made of a refractory metal with a small cross section, which makes it possible to heat it up with a discharge current to a high temperature. 2. The lamp according to claim 1, characterized in that, in order to increase the radiation of the lamp in the infrared and visible parts of the spectrum, its anode is made in the form of a ribbon of refractory metal, for example tungsten, and is connected to the power supply circuit for additional heating . “2  2  . Life ig. i . Fig 2