SU817489A1 - Method of scanning spectrum in raster spectrometer - Google Patents

Description

The research relates to spectral instrumentation. Known methods of scanning by rotating the diffraction grating of the vertical axis, its design of the Faiths, which is the most suitable technical solution, is a method of scanning the spectrum in a raster spectrometer, including a one-time scanner: rotating the diffraction grating and mirror around its axes 123. Disadvantage. across the field of the raster from the wavelength, as a result of which there is a limitation of the working spectral range and the luminosity is reduced. The purpose of the invention is to increase the aperture and the expansion of the spectral range of measurements. The goal is achieved by the fact that in the method of scanning the spectrum in a raster spectrometer, which includes a simultaneous rotation of the diffraction grating and a mirror around its axes, the mirror is moved along the optical axis and turned in the direction opposite to the direction of rotation of the diffraction peideTKH, by an angle, defined by { PO - “-“) arccos Where L is the angle of rotation of the lattice; . % orccos | r | r is the beginning of the lattice angle Gr — the meridian increase along the axis, while for all waves the meridional increase along the axis remains strictly constant within 0.5-0.9. “In FIG. If 2 and 3, the optical circuits, the Helioek and the spectral scanning method are presented. The optical circuit comprises a diffraction grating 1, which is optically coupled to a flat mirror 2. In addition, in FIG. 1, 2, and 3 are indicated: (f is the angle of incidence of the beam on the grating. If is the angle of diffraction of the beam on the grating, aft is the angle of rotation of the grating 1, (b is the angle of rotation of the mirror 2; X is the direction of movement of the mirror 2. Scanning of the spectrum in a raster spectrometer, the following is carried out.

Claims (1)

The formula of the invention is the spread angle diffraction angle p0s (<p _o 4 rev)] * L ------- j 'where φ ₀ is the initial angle of the lattice; Г _о - meridional increase along the axis, which remains constant during the scanning process within the range of 0.5-0.9. At the same time, monochromatic images of the input reference world corresponding to different wavelengths and different orders of the spectrum are superimposed on the output reference world. If the meridional increase along the axis remains constant within 0, * 5-0, 9, then the meridional increase ^ along the field of the output raster changes with a change in the wavelength to a lesser extent than when scanning with a meridional increase along the axis equal to unity in the known method. This allows you to expand the spectral range of measurements and increase the sizes of the rasters, i.e., aperture ratio. In addition, with a single diffraction, which takes place in the proposed method, there is no is A method of scanning a spectrum in a raster spectrometer, including the simultaneous rotation of the diffraction grating and mirrors around its axes, characterized in that, in order to increase aperture ratio and expand the spectral range of measurements., The mirror is moved along the optical axis and turned in the direction opposite to the direction of rotation of the diffraction lattice, at an angle determined by the formula '1 Г cos ((₽ _о . + 0С) 1 ·. = ₇ arccos [----- jr ---- j where is the angle of rotation of the lattice; % "Sn * ssov initial angle of the lattice; Г _о ~ - meridional increase along the axis.