SU469166A1 - Hydrogen spectral lamp - Google Patents

Description

(54) HYDROGEN SPECTRAL LAMP

one

The invention relates to low-pressure hydrogen spectral lamps used as radiation sources in spectral devices designed for the vacuum ultraviolet region of the spectrum. To expose far ultraviolet radiation, these lamps are provided with fluorine crystal windows.

It is known that when lamps are filled with hydrogen or deuterium as the lamp is operated, there is a continuous deterioration in the transparency of windows of crystalline lithium fluoride and calcium fluoride in the region of absorption centers. As a result, intense. The radiation power of the lamps in the 200-300 nl area is continuously decreasing. This is a significant disadvantage of lamps, since modern vacuum spectral instruments make it possible to measure over the entire ultraviolet region of the spectrum.

In order to preserve the transparency of the window of the dust over the entire radiation region in the proposed lamp, mercury was additionally introduced into hydrogen, which is the main gas filler of the lamp, to hydrogen.

The essence of the invention is as follows.

The short-wave radiation of a hydrogen lamp, falling on a fluorine crystal window, gives rise to radiation defects in it with the highest absorption in the f-band. It is known that such color centers can be destroyed by irradiation with F-light. In a hydrogen lamina, despite the available radiation in this region of the spectrum, the rate of accumulation of the / - centers under the action of short-wave radiation exceeds the rate of dissociation of the G-centers. Therefore, a decrease in the transparency of windows in the region of 200-300 nm is observed. In order to increase the rate of destruction of the / - centers, it is proposed to enhance the radiation in the region of the / - band by adding to the main gas fill of the lamp mercury, the emission spectrum of which contains an intense resonance line - 253.7 nm.

To obtain the maximum yield of mercury resonance radiation in the region of 253.7 nm

It is necessary that the working pressure of mercury in the lamp be determined as the pressure of saturating vapors, and be approximately 10 mm Hg. Art. This is achieved by the fact that mercury is introduced into the flask in excess, and the indicated pressure of it

saturated vapor is determined by the temperature of the coldest spot of the flask, equal to about 50 ° C. The emission spectrum of a hydrogen lamp with mercury introduced into it differs from the spectrum of a conventional hydrogen lamp only in the appearance of several intense mercury lines, such as 185 nm, 194 nm, 253.7 nm. The emission spectrum of hydrogen is not attenuated. Continuous irradiation of the crystal window during lamp operation with enhanced radiation in the / -band results in that for magnesium fluoride windows the initial transparency is maintained throughout the whole area during the entire service life of the lamp, and for lithium fluoride windows by the end of the period service in the region of 200–10,300 nm, transparency decreases only by 20%, while in a conventional hydrogen lamp, transparency decreases over the same time by 90%. The presence of the above mentioned lines in the spectrum also makes it possible154 to use a hydrogen lamp for the calibration of vacuum spectral instruments. Pelmet from the subject of isoretum 1. A low-pressure hydrogen spectral lamp, the flask of which has a window made of fluoride crystal, characterized in that, in order to preserve the transparency of the oxide throughout the ultraviolet region of the spectrum during lamp operation, hydrogen is the main gas filler of the lamp, additionally introduced mercury. 2. A hydrogen lamp according to Claim 1, characterized in that the mercury is introduced in an amount that provides the working pressure of its vapor of about 10 mm Hg. Art.