SU591787A1 - Reflector axicon - Google Patents

Description

The invention relates to the field of optical instrumentation, more precisely to special purpose lenses, and NfomeT is applied in mechanical engineering, applied geodesy and construction when testing npHNfo11I} of basicity, alignment and flatness, as well as simulating various distant objects.

Lens and mirror-lens axicons with spherical surfaces are known, having uncorrected spherical or chromatic aberration of position.

Due to the large uncorrected longitudinal aberration, the object point on the axis is depicted as being cut straight along the axis, and in the image analysis plane 13

images of variously distant objects with the unchanged position of the TeNibi C components.

The common disadvantage of axicons is insufficient for accurate measurements and observations of the luminance and image quality. Increasing illumination. And improving image quality is possible by increasing the diameter of the entrance pupil, the relative aperture and reducing residual aberrations in the image analysis plane.

The closest in technical essence to the image is an axicon containing a lens reflector, made in the form of a negative meniscus with its concavity facing the image analysis plane on the convex side of which is plotted from -. A painful coating. The axicon's disadvantage is that with a large uncorrected spherical aberration, which provides for the visibility of objects with different distances, the reflector has residual chromatic aberration of the flow, which does not allow an increase in the diameter of the reflector and the relative aperture of the system. In addition, the lack of an axicon with an uncorrected spherical aberration is the variable angular accuracy of sighting of distantly distant objects, which is completely eliminated in axicons with an uncorrected chromatic position aberration. The goal of the sketch is to improve the image quality in the analysis plane by reducing spherical aberration while simultaneously increasing the relative versatility of the system. This is achieved by the fact that the mirror-lens axicon, which contains a lens reflector made in the form of a negative meniscus, facing with a concavity to the image analysis plane and on the convex side of which a reflective coating is applied, is provided with an aplanatic meniscus installed at half the focal length of the lens reflector facing the image scaling plane with a linear magnification equal to the refractive index of the material from which it is made. This makes it possible to eliminate spherical wounding of a system with a large relative aperture (on the order of 1: 2) with an uncorrected chromatic aberration of the position, which ensures the sight of differently removed objects. The drawing shows the scheme described axicon. Oiisi includes a lens reflector 1, a negative aplanatic meniscus 2. A lens reflector with corrected spherical aberration has the form of a negative meniscus with a ratio of the radii of curvature of the surfaces (f, / g,). close to 1.4-1.55. Such a reflector is called a Manjene mirror. The chromatic aberration of the position in this case remains uncorrected but insufficient to use one reflector as the chromatic axicon. To increase the chromatic aberration of the position while maintaining a good correction of the spherical aberration of the entire Tetvfb system after the lens reflector 1 at a distance d, equal to half the focal length of the reflector, a meniscus 2 with a linear increase and an equal refractive index of the material it is manufactured is set. The chromatic aberration of the position of the whole dS system is as d oTp / M - the chromatic aberration of the position of the lens reflector; dyS is the chromatic aberration of the position of the aplanatic meniscus. The magnitude of the chromatic aberration of the position of the entire system appears to be very significant and can ensure the expansion of variously distant objects from several meters to infinity. the invention of the mule The mirror-lens axicon containing a lens reflector, made in the form of a negative meniscus, facing with a concavity to the image analysis plane and on the convex side of which the south has a reflective coating that is supposed to, in order to improve the image quality in the image plane by reducing the spherical aberration while simultaneously increasing the relative aperture of the system, it is equipped with an aplanatic meniscus installed on the back of the focal lens reflector To ob- utostyu rashezshym image analysis with a linear increase in a plane equal to the refractive index of the material from which it is made. Sources of information, taken into account in the examination: 1. USSR Copyright Certificate № 2Q2128, cl. Q 02 B 15 / OO, 1969. -2. W.H.SteeE.Axcons wiblbpenicaE, ut faceSfOplic in, Te dtron 1960, c. ,