RU1802299C - Method of measuring integral spectrum of extensive object - Google Patents

Description

photomultipliers 16 and 17 receiving radiation in the signal and transparency channels, respectively. Further in the scheme are followed by. ki accumulation and registration 19 of the signal and the control unit 20 coordinating the operation of nodes 2, 8, 18 and 19.

The inventive method works as follows.

The main mirror 3 builds a small (less than the gap height) image of the Sun on the entrance slit 5 of the monochromator. The motion of a flat mirror 2 carries out cyclic scans of this image at a constant speed across the entrance slit 5. The Fabry lens 15 builds the exit pupil of the optical system on the PMT cathode 17. The diffraction grating 21 and the main mirror 3 are the aperture diaphragms of the optical systems of the monochromator and telescope, moreover their frames are made in the form of rectangular diaphragms. Therefore, monochromatic radiation is received by a photomultiplier 17 with the same aperture for all portions of the portion of the solar image emitted by the input slit 5 for different wavelengths. The scanning along the spectrum is carried out by moving along the dispersion of the ecker 8, and each scanning step is performed after completion of the full scanning cycle of the Sun image, during which the signal from the PMT 17 is accumulated (added) in block 18. The signal (summed) is recorded in block 19 immediately before the next movement of the ecker.

At the same time, a signal after a single passage is recorded in the transparency channel in a similar manner, taking into account which the results of fluctuations in the transparency of the Earth's atmosphere are corrected.

In the method implemented on an integrated spectrophotometer when observed in

In the same order of the spectrum, a high spectral resolution of H500000 is achieved), due to the use of an entrance slit having a normal width and the use of the entire

surface of the diffraction grating (140 x 150 mm, 600 lines / mm), 2), high photoelectric detection accuracy (0.2%). due to the large signal-to-noise ratio, 3) the correct integration of radiation over the surface of the solar disk, due to the uniformity of scanning of the solar image, the linearity of the receiving equipment and the equality of apertures when recording radiation from different zones

drive.

Claims (1)

The claims A method for measuring the integral spectrum of an extended object, including obtaining an image of an object, scanning an image of an object from the input slit of a spectral device, receiving monochromatic radiation from a portion of an image of an object extracted by an input slit of a spectral device, scanning from a spectrum of a spectral device, accumulating a signal from said monochromatic radiation, and register this signal, characterized in that, in order to increase the accuracy of measurements, the reception of monochromatic radiation from the part of the image of the object selected by the input slit of the spectral device for different wavelengths with the same aperture, during the scanning process on the spectrum of the spectral device for each monochromatic interval, a full cycle of image scanning is carried out object at a constant speed along the dispersion direction of the spectral instrument, and the signal is recorded after the completion of the full scan cycle of the image of the object. 6 S / 2 22 5 J f /