RU2012907C1 - Catadioptric lens - Google Patents

Abstract

FIELD: optical systems. SUBSTANCE: lens has negative meniscus whose concave part faces object whose second surface in central region functions as second mirror, positive meniscus (Mangin mirror) whose concave part faces object whose first surface is glued in central region with negative meniscus and its second surface functions as mirror in peripheral region, and negative correcting meniscus whose concave part faces object. Correcting meniscus is located behind Mangin mirror. EFFECT: improved design. 1 dwg

Description

 The invention relates to optical instrumentation and can be used in various devices.

Various mirror-lens system [1], [2], but based on the focal length of 500 mm, the aperture ratio of 1: 8, 4 ^of the field of view 54 'and when working in a wide spectral range from the wavelength 404.66 nm wavelengths of 706.52 nm, they have either low image quality [1] or a large number of structural elements more than 4 [2].

 The closest in technical essence to the proposed invention is a lens containing three components, of which the first component is the negative meniscus facing concavity towards the space of objects, the second surface of which in the central zone is a secondary mirror, the second component is the Mangin’s mirror is the positive meniscus facing concavity towards the space of objects with a hole in the central part, the third component is the corrective one, which is in a converging beam.

 A disadvantage of the known lens is not a high enough image quality with a complex design.

 The purpose of the invention is to simplify the design while improving image quality and increasing the field of view.

 This goal is achieved by the fact that the mirror lens contains four lenses, the first of which is a negative refracting meniscus, the second surface of which is a secondary mirror in the central zone, the second is a Mangin’s mirror - a positive meniscus directed by concavity towards the space of objects, the third corrective - the negative meniscus in the converging beam of rays, directed by the convexity towards the space of objects, is located behind the Mangin’s mirror, and the fourth is the negative meniscus, directed ypuklostyu toward the object space, and glued to the second lens which is in the center region does not contain a mirror coating and functions as a refracting.

The indicated design parameters provide the proposed lens with obtaining new properties, namely, it allows to obtain a system with the following characteristics: focal length 500 mm, relative aperture 1: 7.8; field of view 4 ^about 54 '; high image quality.

 The drawing shows an optical diagram of the lens. It consists of a negative meniscus 1, turned concavity towards the space of objects, a Mangegene mirror 2 - a positive meniscus convex towards the space of objects, a negative lens 3 - a meniscus in a converging beam directed by a concavity towards the space of objects and located behind the Mangeon mirror, and negative lens 4 - meniscus facing concavity in the direction of the space of objects glued to the first surface of the Mangin mirror.

Claims (1)

 MIRROR-LENS LENS, containing three components, the first of which is a negative meniscus facing concavity to an object, on the convex surface of which a secondary mirror is made in the central zone, the second component is a Mangin mirror in the form of a positive meniscus facing concavity to the perimeter, the second surface of which mirror in the peripheral zone, and the third component is corrective, characterized in that, in order to simplify the design while improving image quality and increasing the field of view, the negative meniscus is glued to the first concave surface of the Manzhen mirror in the second component, and the correcting component is made in the form of a negative meniscus, which is concave to the object and located behind the Manzhen mirror.

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