SU1193542A1 - Reflectometer for checking concave mirrors - Google Patents

Abstract

REFLECTOMETER FOR CONTROL OF CONCURSED MIRRORS, containing a radiation source, a holder for mounting a test mirror mounted on the optical axis of the reflectometer, and two reflectors installed in front of the holder and turned to it with its working surfaces, characterized in that, in order to enable the precise measurement of the coefficient reflection of concave mirrors with different focal distances; one of the reflectors is made in the form of a flat autocollimation mirror, installed with the possibility of a company around an axis lying in its plane, another reflector formed by two flat mirrors located mutually perpendicularly at acute angles to the optical axis of the reflectometer, and a holder for attaching the test mirror (L installed with the possibility of shifting movement along the optical axis of the reflectometer.

Description

with with joint venture

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The invention relates to photometry and spectrophotometry and can be used to measure the reflection coefficient of concave reflective surfaces, including the control of finished concave mirrors with different radii of curvature and at very high nominal values of reflection coefficients.

Known reflectometers that use multiple reflections from the test surface 1}.

However, they are designed dp controls not concave, and flat mirrors.

Closest to the invention is a reflectometer for monitoring concave mirrors, containing a radiation source, a holder for mounting a test mirror mounted on the optical axis of the reflectometer, and two reflectors mounted in front of the holder and facing its working surfaces 2.

He uses White's multi-pass optical system. For correct installation operation, it is required that the reflectors be concave mirrors with focal lengths, equal to the focal distance of the test hole. This limits the applicability of the system for measuring the reflectivity of mirrors with different focal lengths, especially for controlling the quality of the finished mirrors during their manufacture.

The purpose of the invention is to create a reflectometer that provides the ability to accurately measure the reflection coefficient of concave mirrors with different focal lengths.

The goal is achieved by the fact that one and the reflectors are made in the form of planes of an autocollimation mirror mounted rotatably around an axis lying in its plane. The other reflector is formed by two flat mirrors arranged at right angles to the optical axis of the reflectometer and each holder for mounting the subject The mirrors are mounted with the possibility of a permutation movement along the optical axis of the reflectometer.

The drawing shows a diagram of the reflectometer.

The radiation source 1 is installed on the optical axis 00 of the reflectometer

93542 1

in front of the entrance slit 2. The test mirror 3 is mounted on the same axis in the holder 4. The holder 4 can move along the optical J axis 00 in the directions 5. In front of the holder 4 of the test mirror 3 there is a reflector - an autocollimation mirror 6, which can rotate around the axis 7 located in the plane of this mirror, for example, perpendicular to the optical axis of the OTDR 00. The other reflector consists of two flat mirrors 8 and 9 that are perpendicular to each other on either side of the optical axis 00. The reflector spruce 10 can be located, for example, on the outside of the mirrors 8 and 9.

20 The angle between the optical axis and the line, connected to the centers of the working surfaces of the autocollimation 6 and the test 3 mirrors, is selected from the condition of no 25 vignetting. As a rule, it should not exceed 15.

In order to increase compactness, it is recommended to place the autocollimation mirror 6 under or above the 8 3Q and 9 mirrors.

The reflectometer works as follows.

Light from radiation source 1. through the entrance slit 2 enters the test concave mirror 3 mounted in the holder 4 at a certain angle to the optical axis. This angle is set so that the radiation reflected from the mirror 3 is directed to the autocollimation mirror 6. By turning the autocollimation mirror 6 around the axis 7, the radiation is reflected on the test mirror 3 with a slight angle offset. After the second reflection from the test mirror 3, the radiation is directed towards the mirrors 8 and 9. Moving the holder 4 with the test mirror 3 along the optical axis, establish the distance between the test 3 and the autocollimation 6 mirrors equal to the focal distance of the test mirror 3. This position corresponds to correct focusing of the autocollimation image on mirrors 8 and 9 (between them). Mirrors 8 and 9 shift the reflected beam and the next cycle of the system passes even more displaced from the entrance slit

Claims (1)

A REFLECTOMETER FOR CONTROL OF BENT MIRRORS, containing a radiation source, a holder for mounting the test mirror mounted on the optical axis of the reflectometer, and two reflectors mounted in front of the holder and facing it with their working surfaces, characterized in that, in order to enable precision measurement reflectance of concave mirrors with different focal lengths, one of the reflectors is made in the form of a flat self-collimation mirror installed with the possibility of rotation in round an axis lying in its plane, the other reflector is constituted by two flat mirrors arranged in mutually perpendicular directions at acute angles to the optical axis of the OTDR, and the holder for fastening subject mirror is mounted for movement along the optical permutation reflectometer axis. CD СО СП 4 ^ бо f 1 193542