SU1067449A1 - Two-dimensional signal spatial spectrum coherent optical analyzer - Google Patents

Abstract

COHERENT OPTICAL ANALYZER OF SPATIAL SPECTRA OF TWO-DIMENSIONAL SIGNALS by auth.St. 868619 characterized in that, in order to improve the accuracy of measurements, a second spherical lens and a flat mirror installed in its focus, which are optically coupled through the input transparency to the collimator and the first spherical lens, are introduced into it. a 4: D

Description

The invention relates to a measurement technique, in particular to spectrum analyzers, and can be used in various fields of physics for studying the spatial spectra of light fields. According to the main auth. No. 868619 is known a coherent optical analyzer of spectra of two-dimensional signals containing a source of coherent light (laser, collimator, entrance transparency, frame with electric motor, spherical lens, point aperture, and photodetector with ClJ averaging node. If there is a substrate on which a signal under study (input if the transparency is not ideally plane-parallel, then when it is rotated by an electric motor in the output focal plane, in addition to the rotational one, there will be a circular progressive movement of a two-dimensional space. signal spectrum, which significantly reduces the accuracy of the analysis. The purpose of the invention is to increase measurement accuracy. This goal is achieved by the fact that a coherent optical analyzer of spatial spectra of two-dimensional signals containing optically coupled coherent light source, collimator, input transparency, spherical, lens, a frame with an electric motor, a pinhole and a photodetector with a middle node, with the frame with an electric motor connected to the input transparency, the second sphere is additionally introduced A traditional lens and a flat mirror mounted in its focus, which are optically coupled through the entrance transparency with the collimator and the first spherical lens Pa. FIG. 1 shows the analyzer structural scheme; in fig. 2 ray paths in the introduced optical elements. The analyzer consists of optically coupled1 source of coherent light (laser), collimator 2, input transparency 3, frame 4c with an electric motor, spherical lenses 5 and 6, a point aperture 7 and a photodetector 8 with an averaging node and a flat mirror 9. A coherent spatial spatial analyzer The spectra of two-dimensional signals works as follows. The beam of light from laser 1 is expanded by a collimator 2 n passes through that place on the substrate of the investigated transparency 3, fixed in frame 4, in which there is no signal recording. In this case, if the substrate is not plane-parallel, the beam will come out of it, deviating by a certain angle d to the direction of its original p & K propagation (Fig. 2). Next, the radiation is directed through a spherical lens to a flat mirror 9 installed at its focus. The beam emerges after the flat mirror 9 at an angle Ji-td (Fig. 2) to the direction of its initial propagation K and illuminates the substrate 3. Passing the SUBSTRACT, it deviates At angle Cii, i.e., becomes parallel to the direction of its initial propagation. The beam is directed onto a spherical lens 5, in the output focal plane of which a two-dimensional spatial frequency spectrum of the recorded signal is formed. When the input transparency 3 rotates, the spectrum is synchronously rotated in the output focal plane of the lens. The presence of an additional spherical lens 6 and mirror 9 excludes circular circular movement of the spectrum due to the non-parallelism of the sides of the substrate. The signal from the photodetector 8 lens installed in the output focal plane with a pinhole 7 and displaced along the line passing through the main focus, at THIS point, is proportional to the spectrum of the signal under investigation averaged over the angular coordinate. The present invention allows, with greater accuracy to conduct an analysis of two-dimensional signals.

Claims (1)

A coherent optical analyzer of spatial spectra of two-dimensional signals according to autoswitch No. 868619, characterized in that, in order to increase the accuracy of measurements, a second spherical lens and a flat mirror mounted at its focus, which are optically connected through the input transparency to the collimator, are introduced into it and the first spherical lens. Λ al)