SU399737A1 - DEVICE FOR CHANGING THE SPECTRAL COMPOSITION OF RADIATION - Google Patents

Description

The invention relates to the optical design of the mechanical engineering industry and can be used in the correction of the spectral composition of optical radiation. In the known devices for converting the spectral composition of the light flux, the change in the spectral composition of the radiation is carried out by means of diaphragms with figured apertures or by means of corrective light filters. Such methods for changing the spectral composition are characterized by the fact that the change in the spectral composition of the radiation occurs discretely and is limited by the number of corrective elements used besides that, it is impossible to smoothly adjust the spectral composition of the luminous flux, which is quite significant for three times the passage of optical elements of time. The goal of the present invention is to provide a fundamental change in the spectral composition of the radiation and to seek out the accuracy of the adjustment. This is achieved in that in each of the radiation fluxes, corrective spectral filters with a falling spectral transmittance curve are installed in one towards the larger wavelengths, in the other towards the iKOpoTKHX wavelengths and neutral filters with a smoothly varying density. The device is made on the basis of a two-beam photometric lobbyor. The proposed device has two translucent and two reflecting mirrors. Pa figs. 1 shows my proposed device; in fig. 2, a - the spectral composition of the radiated and incident on the device input; la fig. 2.6 - spectral transmittance correction filter; pas figs. 2, the B spectral compositions of the first and second radiation streams exiting the device. The device contains translucent mirrors (Kala 1 and 2 and reflecting mirrors 3 and 4. In one luminous flux, a Correcting spectral filter 5 with a falling spectral transmittance curve in the direction of long waves and a neutral filter b with a smoothly varying density are installed; a filter with a powering, spectral transmittance curve towards the short Yen 7 and a neutral filter 8. Pa Fig. 1 also shows a neutral filter 9. that serves to attenuate the output light tract. The operation of the device is as follows.

The radiation from the source (not lacZNO) is given by the semi-transparent mirror 1 and is divided into two streams. The ODIB stream passes a corrective spectral filter 5 and the neutral filter 6 is reflected by mirror 3 to mirror 2. The second stream is reflected by mirror 4 and passes through the second bar of the specified filters with the corresponding characteristics set for this channel. Since the a1 & coral formulas of both salary flows are varied, it is possible to change by means of neutral filters with a well-varying density of 6, 8 than the length of one of IDOTOKOB or both, it is POSSIBLE to smoothly curves (a) and (b) of FIG. 2b. In this way, one can obtain the spectral composition of the radiation corresponding to the curves (c) and (d), etc. The neutral filters used in the device have a transmission characteristic from O to 1.

The advantages of the gamma device for changing the spectral composition of the radiation is the ability to smoothly change

the spectral composition of the radiation, which improves the accuracy of the installation of a given spectral composition and allows one to adjust the spectral composition of the light flux when changing the spectral characteristics of the source radiation or transmission of the device in which the proposed device is used.

Subject invention

A device for changing the spectral composition of the radiation containing a system that divides the radiation into two streams and connects them again, which is different there, in order to ensure a smooth And31 changing the spectral composition of the radiation and improve the accuracy of the adjustment, in each of the streams there are installed corrective spectral filters with a falling spectral transmittance curve in one side of large wavelengths, in the other side of short wavelengths, and neutral filters with variable density.

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