SU710084A1 - Spectral light source - Google Patents

Description

The invention relates to radiation sources and can be used in quantum frequency standards, magnetometers, photometric and spectral devices and devices.

Spectral are known, in which the coils are wound with a thin wire on the lamp, and the lamp is glued directly to the generator board 1.

However, such constructions are low-tech, non-repairable, their reliability in terms of vibrations and is low, since the lamp is glued to the console.

The closest technical solution to the invention is a spectral light source containing a heat-insulated discharge lamp with a heat sink process filled with an inert gas and an alkali metal, a thermostat and an excitation unit, a high-frequency discharge 2.

In such a spectral source, the coil is made in the form of a metallic coating applied to the surface of the lamp that is attached to the B holders.

The reliability of such a source is higher, the dimensions are smaller, but having a heat connection between the lamp body and the external environment results in low stability of the radiation.

In order to increase the stability of the radiation source, it is necessary to ensure that its temperature is such that the temperature of the heat of the diverting process would be less than the temperature of the lamp itself. which defined the pattern At °. The stability of the radiation depends on the stability of maintaining this value. The latter, in turn, depends on the nature of the thermal connection between the surface of the lamp and the external environment. The worse this bond, the more stable the velichi ha At °.

Claims (1)

At the source, such a connection is dried both by wires, and by the RF generator, and by the lamp holders. Therefore, temperature changes in the environment in which the RF generator and holders are located will change the value of At °, which will lead to a decrease in the radiation stabilization. 3 Thus, the spectral light sources discussed above have four main disadvantages: low reliability under vibration conditions and three; large dimensions; the labor intensity of producing the source due to the duration of the cycle of gluing the discharge lamp to the source body; low radiation stability. In the above-described spectral source designs, there is no contradiction between the need to mount the lamp behind its body (for the spherical part) and the need to provide a mishmapyugo thermal connection between the spherical part of the lamp and the external environment. The aim of the invention is to increase the reliability of the spectral source under the conditions of vibrations, reduce the size, reduce the labor input and increase the stability of the radiation. The goal is achieved by the fact that, in the proposed source, the high-frequency discharge excitation unit is made in the form of a flexible printed circuit board with two printed inductances wound on a thin-walled stack equipped with two holes, in which the discharge lamp is opposed. bottom and transparent Noetheprovod Noah cover. In this case, the lamp touches only the bottom with a part of its surface; located B6jnj3H heat sink w, its process, and krndki at the point / it is located on the opposite side of the sparse. A heater with a tsr-sensor is placed on the bottom surface. The drawing shows the proposed spectral light source. The discharge lamp 1 of the spherical shape with the withdrawal process 2 is placed in a thin-walled glass 3 having openings 4. On the glass 1 amotana there is a flexible printing bag 5 with inductances. The lamp in the glass is placed so that it touches only cover 6 and bottom 7, at. This is where contact occurs only at a point, and with dhg - a part of the surface of the lamp located close to the rest of the arm. The bottom surface is located on the heater 8 and thermo tack 9. The entire structure is behind the D1Š1en by thermal insulation of 10 foam plastic. The use of a flexible printed circuit board with inductances in combination with a thin-walled stack with a 4n allows to drastically reduce the size of the source (approximately 2 times in diameter). The fastening of the la.mpa between the lid and the bottom provides an increase in the reliability of the spectral source due to the absence of a cantilever lamp mount for the heat sink of the 1st pip. In the glass of the lamp, tensile stresses, which are particularly dangerous, do not occur. As it is known, for glasses the temporal resistance to compression exceeds by about 10–20 times the temporal resistance to stretching, therefore, the same time it is possible to increase the permissible load on the proposed spectral source as compared to aialogich}) min. The use of this lid material in combination with thin-walled glasses and a heater with a thermal sensor located at the bottom of the glass provides the lamp with the necessary temperature conditions, i.e. despite the changes in ambient temperature; The temperature difference between the lamp body and the heat sink process remains constant. Therefore, the radiation stability is improved. No adhesive bonding of the lamp. with the source housing allows the time to be fabricated for a source to at least 72 hours. Formula of the Invention The spectral light source containing a heat-insulated discharge lamp with a heat sink, filled with inert gas and silk metal, is thermostat and a node for exciting a high-frequency discharge Yes, characterized in that, in order to increase the reliable spectral source in the conditions of vibrating and reduce the size, reduce the laboriousness of manufacturing and improve stability, the node for exciting high-frequency ASP and is designed as a flexible printed circuit board with printed dnum E E inductively wound on ddzum provided with apertures walled beaker placed in kotorsh bottom discharge lamp. Sources of information accepted in the analysis at examination, 1. Rubidinm Vapor Freguency Staudard 5065A, Hewletla Pachard, 1970. T. USSR Author's Certificate No. 369649, cl. H 01 3 65/04, 1971 (prototype). 7 8