SU137691A1 - Microprofilometer - Google Patents

Description

The known microrophilometers, made according to the scheme of the device of the same name of the Linnik system, have the disadvantage that only weak lenses with a large free (working) distance can be used in them.

The essence of the invention is that the microfilometer is equipped with a polarization device producing a split image of the slit, which is made in the form of a polarizer, a polarization prism and two quarter-wave plates, the polarizer is installed at the slit, the polarization prism is behind the separating a plate in one branch of a microprofilometer; the first plate is near a polarization prism and the second is in a different branch of a microprofilometer.

The drawing shows a diagram of the microprofile meter.

The light beam from slit 1 passes through a polarizer 2, which is oriented so that the directions of the light oscillations passing through it are parallel or perpendicular to the slit. A separating plate 5 and a lens 4 are fitted between the polarizing prism 5, referring to the type of prisms that produce a bifurcated image (prisms of Roton, Senarmon, Wollaston, etc.). The drawing shows, in particular, the Wollaston prism, consisting of two wedges. The optical axis of one wedge is parallel to the slit. About the second axis of the second wedge perpendicular to the slit. For light oscillations directed parallel or perpendicular to the slit, such a prism is equivalent to a glass deflection wedge. The axial beam, having passed through the prism 5, deviates somewhat from its direction, remaining in the plane of the drawing.

Between the prism 5 and the lens 4 there is a b-quarter-wave plate, the axes of which are 5 angles of 45 ° with the axis of the prism wedges. With direct and reverse (after reflection from mirror 7) ray passing through, plate 6 is equivalent to a half wave plate. Therefore, the light oscillations of the rays entering the prism 5 on the way back (after reflecting from mirror 7) occur in the direction perpendicular to 1; and the direction of the oscillations coming out of polarizer 2. The rays passing through the prism 5 will be on the way back rejected by this prism again, with the result that you get the desired split images of the slit D and D.

In order to align the direction of the fluctuations of the interfering rays in one plane, between the separation plate 3 and the volume (three), a quarter-wave plate 9 must be installed.

The cylindrical lens 10 provides two astigmatic images of the slit DL D. Interference bands are observed in the plane / through the eye // eye.

The circuit should be supplemented with conventional devices for equalizing optical paths in two branches.

Subject invention

A microprofilometer according to Lipnik, characterized in that, in order to enable the use of lenses with a small working distance, it is equipped with a polarization device bifurcating the slit of the image of the slit, made in the form of a polarizer and a polarization prism installed behind the separating plate in one branch, and two “quarter wave” plates, one of which is located near the polarization prism, and the second in the other branch of the microprofilometer.