SU494720A1 - Spatial Angle Scanning System - Google Patents

Description

one

The invention relates to systems of spatial angular scanning by a light beam, in particular, by radiation from gas lasers. Such systems can be used to debug large multi-pass optical cells in atmospheric absorption experiments using a laser radiation source, as well as in devices for spatial search of targets in the visible and infrared ranges.

Known systems of similar purpose are either complex or unsuitable for use in the far infrared and are not direct vision systems.

The purpose of the invention is to develop a direct vision mirror system suitable for angular spatial scanning with an IR laser beam.

The drawing shows schematically the proposed scanning system comprising a radiation source (laser) 1, flat mirror reflectors 2, 3, 4.

The beam from laser 1 is directed to the scanning system along the axis OiOz, while if the mirrors are located at angles, then the output beam goes parallel to the incident beam. The system is then rotated with a period TI around the axis OiOa and at the same time mirror 4 is oscillating around the axis O with a period TZ. When synchronizing these

periodic motion in a definite ratio coming out of the system, the beam is in the far zone on the observation plane P a closed or open curve, the form of which is determined by the ratio of the periods TI and TZ. For example, with a path described by a ray on a plane, it is a spiral with a very small schag.

The advantages of the proposed system are simplicity of design (only three mirror reflectors are required), non-selectivity (work is possible in the range from UV to IR), the presence of direct viewing property, and also operational flexibility, so as to change the angular range or type of scanning path it is only necessary to change the ratio of the periods G and G2, which is easily realized with the help of electromechanical or piezoelectric means.

Claims (1)

Invention Formula A spatial angular scanning system consisting of three mirrors arranged similarly to the reflecting faces of an Abbe prism, characterized in that, in order to obtain a given scanning trajectory in a viewing plane, for example, a helix, having a direct view property, it is installed rotational motion around its axis, provided one of the mirrors is simultaneously rotated around the axis, 4 perpendicular to the axis of the system and parallel to the planes of the mirrors.