SU402787A1 - METHOD OF DETERMINING THE CENTER OF A LIGHT POLARIZED BEAM - Google Patents

Description

one

A known method for determining the center of a polarized light beam, which consists in coding the beam emanating from the emitter, and decoding the beam entering the receiver.

The proposed method differs from the known one in that the beam is encoded according to the position of the polarization plane in a section perpendicular to the optical axis, for example, using an axicon.

This method improves the accuracy of determining the center of the beam.

The drawing is a diagram explaining the described method.

Planarized radiation, in particular, laser beam 1, is passed through a circular cone 2 made of a material that rotates a polarization plane, such as crystalline quartz, a compensator 3 of a material with a refractive index equal to the cone material’s refractive index, but not the polarization plane , for example, of fused quartz, and then through a stationary or rotating polaroid analyzer 4 is fixed with the eye of the observer or a photo-receiving device with an optical coordinator of the center of the beam l any known type. Cone 2 set

on the laser so that its axis exactly coincides with the axis of the beam. The compensator 3 is given such a shape that, when connected to a cone, a plane-parallel plate of circular cross section can be obtained (to ensure a constant beam path). Paul Rhoid - analyzer 4 is placed at the point of observation.

On the structure of the polarized beam to the polaroid analyzer (see position a), the hatching lines conventionally show the orientation of the polarization planes of different parts of the beam.

If the center of the polaroid 4 is precisely oriented at the center of the beam 1 at the exit of the polaroid (see position b), alternation of concentrically dark and light rings is observed, the center of which coincides with the center of the beam. The number and width of the rings depend on the height of the cone and the specific rotational ability of the material from which it is made. The distance between the rings of the same intensity corresponds to the phase shift.

When the polaroid rotates, the rings alternate (moving from the center or to the center) with a frequency equal to twice the rotation frequency of the polaroid. When the center of the floor is displaced from the center of the beam, the center of the concentric rings is displaced (see positions in and

d). In this case, the center of the beam is found by moving the polar in the plane of the transverse section of the beam until the position b is obtained in the field of view.

The center of the polaroid is combined visually or automatically with the center of the beam with the help of well-known coordinators who produce an error signal proportional to the displacement of the center of concentric circles relative to the center of the polaroid.

Subject invention

The method of determining the center of the polarized light beam, which consists in coding the beam, outputting H1 from the emitter, and decoding the beam entering the receiver, characterized in that, in order to increase the accuracy of determining the center, the beam is encoded according to the position of polarization in the section, perpendicular the optical axis, for example, using an axicon.