SU903956A1 - Star simulator - Google Patents

Description

(54) STAR IMITATOR

I

The invention relates to star system models and may be used when testing instruments in laboratory conditions.

The star simulator is known, which contains a spectral filter, a lens, a point aperture installed in the focal plane of the lens, a condenser and a light source ll that are successively located on the same optical axis.

A disadvantage of the known device is that it does not allow to simulate emission lines against the background of the continuous spectrum of the star, which significantly reduces the consistency.

The goal of the invention is to increase the consistency by providing imitation of emission lines against the background of a continuous spectrum.

This goal is achieved by the fact that the star simulator, containing a spectral filter sequentially located on the same optical axis, an objective lens, a point aperture installed in

the focal plane of the lens, the condenser and the light source contains a grating located on the same optical axis with the lens, interference filters and additional spectral 4 1try, each of the filters installed in the corresponding cell of the grating.

For the correction of the wavelength of the emission lines, each interference filter has a rotation mechanism.

FIG. 1 shows a schematic diagram of the simulator; in fig. 2 is a view A of FIG. 1 (lattice structure with filters installed in it).

The simulator contains a source of light 1, a condenser 2, a pinhole diaphragm 3, a lens 4 and a grid 5 with spectral 6 installed in it and interference filters 7 arranged in series on the same optical axis. In addition, each of the interference filters is equipped with a turning mechanism 8.

For shielding the luminous flux transmitted through the interference

filter 7, when it is rotated, is inserted a diaphragm plate 9. The luminous flux that has passed through the grating 5 is collected by the objective 1O of the device under test.

The simulator works as follows.

A beam of light collimated by lens 4 from light source 1 passes through a grid 5 with a set of spectral 6 and interference 7 filters forms a set of collimated light beams parallel to each other, each of which simulates its own portion of the continuous spectrum of a star or emission line.

Having illuminated the objective 10 of the instrument under investigation with the indicated light beams, in the focal plane of the latter one can obtain the combined spectral radiation of the simulated star.

The correction of the wavelength of the transmission of the interference filter 7 was accomplished by its rotation around the vertical axis at a given angle to the radiation from the radiation using the turning mechanism 8, thereby mixing the spectral line against the background of the continuous spectrum.

The invention makes it possible to produce spectral emissions of a star in a much wider spectral range, moreover, it makes it possible to imitate the characteristic emission lines of the spectrum of a star.

Claims (2)

1. The star simulator containing a spectral filter, a lens, a point aperture installed in the focal plane of the lens, a condenser and a light source, consistently located on the same optical axis, characterized in that, in order to increase the consistency by providing simulated emission lines against the background of a continuous spectrum, it contains a grating located on the same optical axis with the lens, interference filters and additional spectral filters, each of which is installed in the corresponding her lattice. 2. The simulator according to claim 1, that is, so that, in order to correct the wavelength of the emission lines, each interference filter has a rotation mechanism. Sources of information taken into account in the examination 1. US patent No. 3 395 6О7, cl. 88-14, 1968.