SU662894A1 - Reflecting filter - Google Patents

Description

(54) REFLECTIVE FILTER

: - -. / / - ./; The invention relates to the boundary. reflective filters and can be used in spectrometers and spectrophotometers. ; An interferential reflective filter iK is known, containing a substrate with an inertial coating deposited on it, which is made in the form of a wedge, covered on the side opposite to the interference coating, reflecting a short-circuit of the material with transmission in the interval A A, where D is the supernumerary side bandwidth of the interference coating. The disadvantage of this filter is the impossibility of its use in the long-wave infrared range of the spectrum, since the cut-off edge of such a filter does not exceed 40 µm. Another reflective filter is also known, containing a diffraction grating deposited on a crystal of alkaline or alkaline earth metal fluoride, which has an increased reflectivity in the selected working range of the spectrum and a natural cutting edge in the region close to the beginning of the working range 2}. The disadvantage of this filter is that its cut-off boundary is determined only by the type of crystal VS lies in a narrow interval from 15 to 30 km. The closest technical sug gence to the invention is a reflective filter made in the form of a metal grid 3. A disadvantage of the known filter is the large background SHORT71 NEW range of the operating frequency range. The aim of the invention is to reduce the background of suppressed shortwave radiation in the working range frequencies. ;. . . ; This goal is achieved by the fact that the reflecting surface is made in the form of a set of the same type of corner reflectors, the edges of which are connected closely to each other, and the size of the face of the elementary corner reflector is chosen numerically equal to the wavelength corresponding to the cut-off edge of the filter. The drawing shows a diagram of a reflective filter made in accordance with this invention.

The reflective filter is made of the same type of elementary corner reflectors 1, for example, with a triangle with NG facets. The edges of the two triangular corner reflectors 1 are connected closely together.

The reflective filter works as follows.

When radiation is incident on the surface of a reflective filter, the radiation of wavelengths of large linear dimensions of the elementary corner reflector is reflected from the filter surface from the mirror surface according to the laws of geometric optics. For shortwave radiation, however, each surface element is an angular reflector 1, which has the property of reflecting radiation in a direction parallel to the direction of the incoming radiation. In this case, the cut-off edge of the filter corresponds to a wavelength equal to the linear size of the face 2 of the elementary corner reflector 1.

This reflective filter has great mechanical strength and rigidity. In addition, the ability to reflect parasitic shortwave

Radiation back to the source allows the filter to be used in optical cryogenics.

Claims (3)

1. USSR author's certificate No. 382041, cl. G 02 at 5/28, 1971. 2. Author's certificate of the USSR 505000-, cl. G 02 B; 5/26, 1973. 3. Long wavelength infrared spectroscopy. Under the general, edited VN Murzina, Mir, M., 1966. pp. 292-297.