SU42717A1 - Monochrometer - Google Patents

Description

The invention relates to a monochromator, i.e., a device for producing uniform beams.

Both research and technical issues often require monochromatic light. However, strictly speaking, there are no sources of monochromatic radiation, since the monochromatic radiations that seem to be visible for visual observation contain the rays of that OR other, and even both, invisible zones of the spectrum. Therefore, in practice, the selected topics OR are always used in a different way; in this case, the emission of the required radiation is effected by using appropriate light filters, selectively reflecting mirrors, or by decomposing the light into the spectrum and passing the required spectral zone through the slit. The first two methods of obtaining monochromatic radiation do not allow to isolate a narrow zone; In addition, the first of them makes it possible to work ONLY with a weak intensity of the selected light. The most reliable in terms of the purity of monochromatic light is the third method. However, due to the design features of monochromators with a prism or grating, it also does not allow obtaining high intensities, since for illumination of the slit

(200)

the collimator has to take an enlarged image of the radiating surface of the light source, which greatly diminishes the intensity even when illuminated by a Volt arc.

The proposed monochromator, shown schematically in the accompanying drawing, does not have this disadvantage, according to the inventor, since the light source S is installed near the circular aperture D (or projected on it), the diameter of which depends on the refractive corner of the biconical prism P and focal length no lens L, single in monochromator and non-achromatic. When taken at a sufficiently large angle a and long-focus lens L, the diaphragm diameter can be adjusted to several millimeters, since the intersection points of rays of different lengths are obtained on the axis of the system, in the form of a linear spectrum, which can be observed if the monochromator emits smoke or receives spectrum on matte wand. At the same time, in order to emit radiation of a certain length of the WAVE, it is enough to put the screen E in the place (7, 2, 3 ...) where these rays intersect. For greater purity of monochromatic radiation, the opening of the screen E is of such a diameter that it exactly coincides with the image of the opening of the diaphragm D, and at the vertices

k, cones are put on caps or painted over with opaque paint to such a height that the innermost cone of blue rays is already retained by screen E, placed at the point where the violet rays converge. The monochromatic radiation receiving system O should be placed directly behind the screen aperture E, or at least at a distance from it, so that the entire diverging cone passing through the hole E in the screen E is captured by its hole.

The subject matter of the invention.

A monochromator in the form of a tube with an inlet diaphragm and a non-achromatic lens, characterized by the use of a biconical prism P, a vertex K, which is made opaque and placed between lens L and the output movable screen E with an aperture that serves to emit light of the desired wavelength from an axis spectrum systems.